Radiation tomographic apparatus

1 . A radiation tomographic apparatus comprising: a bed that can place an object and move in the body-axis direction of the object; a rotary disk that disposes a radiation source irradiating a radiation and a radiation detector oppositely across the bed and rotates around the bed; an image generation unit that reconstructs a tomographic image of the object based on radiation data detected by the radiation detector while the rotary disk is rotating; a mechanical unit that changes a position of the bed and/or an angle to the vertical plane of the rotary disk; a control unit that controls the mechanical unit; and a movement amount setting unit that sets a movement amount of the bed in a direction orthogonal to the body-axis direction and/or an angle change amount of the rotary disk during scanning, wherein the control unit drives the mechanical unit to perform scanning according to the bed movement amount and/or the angle change amount of the rotary disk set by the movement amount setting unit, and the image generation unit generates an image using movement information of the bed in a direction orthogonal to the body-axis direction and/or angle information of the rotary disk during scanning. 2 . The radiation tomographic apparatus according to claim 1 , wherein the control unit controls movement in a direction orthogonal to the body-axis direction of the bed in conjunction with the body-axis direction of the bed. 3 . The radiation tomographic apparatus according to claim 2 , wherein the control unit is provided with a limit value calculation unit that calculates a limit value of a movement amount in a direction orthogonal to the body-axis direction of the bed for each position in the body-axis direction of the bed. 4 . The radiation tomographic apparatus according to claim 3 , including: a display unit that displays an image generated by the image generation unit, wherein the control unit allows the display unit to display the limit value of the movement amount calculated by the limit value calculation unit. 5 . The radiation tomographic apparatus according to claim 1 , wherein the image generation unit generates an image using a movement amount in a direction orthogonal to the body-axis direction of the bed and/or an angle change amount of the rotary disk set by the movement amount setting unit. 6 . The radiation tomographic apparatus according to claim 1 , wherein the mechanical unit is provided with a measuring unit that measures a movement amount in a direction orthogonal to the body-axis direction of the bed and/or an angle change amount of the rotary disk during scanning, and the image generation unit generates an image using the movement amount of the bed and/or the angle change amount of the rotary disk recorded by the measuring unit. 7 . The radiation tomographic apparatus according to claim 1 , wherein the movement amount setting unit sets the movement amount of the bed in a direction orthogonal to the body-axis direction and/or the angle change amount of the rotary disk based on a pre-scanned image data of the object. 8 . The radiation tomographic apparatus according to claim 7 , wherein the movement amount setting unit sets the movement amount of the bed so as to locate a site of interest of the object in the rotation center of the rotary disk. 9 . The radiation tomographic apparatus according to claim 7 , wherein the movement amount setting unit sets the angle change amount of the rotary disk so that an angle of the rotary disk follows an inclination change to the body-axis direction at a site of interest of the object. 10 . The radiation tomographic apparatus according to claim 1 , wherein the movement amount setting unit sets the movement amount in a direction orthogonal to the body-axis direction of the bed so as to change the movement amount linearly to a scanning view angle. 11 . The radiation tomographic apparatus according to claim 10 , wherein the movement amount setting unit calculates the movement amount in a direction orthogonal to the body-axis direction of the bed based on a difference between a size of the radiation detector and an area of the object to be scanned. 12 . The radiation tomographic apparatus according to claim 1 , wherein the control unit performs scanning whose number of views is greater than that required for one tomographic image for the same slice position and moves the bed in a direction orthogonal to the body-axis direction of the object at a pitch smaller than an element size of the radiation detector for the same slice position. 13 . The radiation tomographic apparatus according to claim 1 , wherein the image generation unit generates a plurality of images whose positions are different in a direction orthogonal to the body-axis direction of the bed in order to generate a synthesized image by synthesizing the said plurality of the images. 14 . The radiation tomographic apparatus according to claim 13 , wherein the image generation unit performs a frequency enhancement process for the synthesized image. 15 . The radiation tomographic apparatus according to claim 1 , wherein the image generation unit generates a CPR image along a site of interest of the object using projection data scanned by changing a position in a direction orthogonal to the body-axis direction of the bed and/or an angle to the perpendicular surface of the rotary disk while moving the bed in the body-axis direction of the object. 16 . The radiation tomographic apparatus according to claim 15 , including: an input device that allows an operator to select either of a three-dimensional image or a CPR image as an image to be generated by the image generation unit. 17 . A radiation tomographic apparatus comprising: a bed that places an object and can move in the body-axis direction of the object; a rotary disk that disposes a radiation source irradiating a radiation and a radiation detector oppositely across the bed and rotates around the bed; an image generation unit that reconstructs a tomographic image of the object based on radiation data detected by the radiation detector while the rotary disk is rotating; and a recording unit that records coordinate variation along the body-axis direction in a site of interest of the object, wherein the image generation unit generates a CPR image along the site of interest of the object using coordinate variation in the site of interest of the object recorded by the recording unit and projection data collected along the body-axis direction of the object.