Patent ID: 7826590
Filing Date: 2010-11-02
Classification: G01N

Abstract:
1. An apparatus for X-ray photographing a tire, the apparatus comprising a rotary device for rotating a tire of any size chosen out of plural sizes with the center axis of the tire parallel with a given direction within a given plane, a point-like X-ray source emitting X-rays in an angular range specified by a predetermined azimuth range and a predetermined elevation angle range, and three linear line-sensors detecting a one dimensional X-ray intensity distribution by means of light receiving elements aligned in the longitudinal direction of each line-sensor, and producing a transmission X-ray image of the full circumference and full width of the tire, based on said one dimensional X-ray intensity distribution detected by said line-sensors for each angular position in tire rotation, characterized in that: said X-ray source is oriented so that said predetermined azimuth range coincides with a predetermined angular range within a plane perpendicular to said given direction, said predetermined angular range including a reference line which is defined as the line perpendicular to said given direction and passing through the X-ray source, said X-ray source is movable along on said reference line according to the size of the tire mounted on the rotary device, so that said X-ray source can be placed at the nearest position to the inner surface of a tread portion of the tire as long as said predetermined elevation angle range covers the angular range including both bead cores with the tread portion in between, each of said three line-sensors is disposed so that at a plane perpendicular to a longitudinal direction of the respective line sensor and passing through the X-ray source, the light receiving surface of the corresponding light receiving elements is oriented perpendicular to a line headed to the X-ray source, a first line-sensor, being oriented parallel with said given direction, is placed within said predetermined azimuth range, in the radial outside of the tread portion of the tire mounted on the rotary device, second and third line-sensors, being disposed on the line formed by moving said reference line in parallel in said given direction, in the lateral outside of respective sidewall portions of the tire mounted on the rotary device, the first line-sensor is placed at the position deviated from the plane defined by both said reference line and said center axis, having two degrees of freedom of motion within a plane perpendicular to said given direction, so that the first line sensor can get as close as possible to the outer surface of the tread portion of the tire, according to the size of the tire mounted on the rotary device, keeping the orientation of said receiving surface of the first line-sensor perpendicular to the line headed to said X-ray source, and the second and third line-sensors are movable in the direction parallel with the center axis according to the size of the tire mounted on the rotary device, so that the second and third line-sensors can be as close as possible to respective sidewall portions of the tire.