Patent Number: 
Section: claims

1. An alignment system for a container or vehicle inspection system, comprising a measuring module, which is a sensor row or a sensor array consisted of a plurality of sensors each configured to measure ray intensity;one sensor of the measuring module is arranged on a longitudinal central line of a detector module of the container or vehicle inspection system, so that it is determined that rays are aligned with the detector module when a ray intensity value measured by the one sensor of the measuring module arranged on the longitudinal central line of the detector module is a maximum value of a ray intensity value curve. 2. The alignment system according to claim 1, whereinthe sensor row or the sensor array and the detector module of the container or vehicle inspection system are arranged to be substantially perpendicular to each other. 3. The alignment system according to claim 1, whereinthe sensor is a small-sized detector having a size smaller than a size of a detector crystal of the detector module of the container or vehicle inspection system, and one small-sized detector of the measuring module is arranged on the longitudinal central line of the detector module of the container or vehicle inspection system. 4. The alignment system according to claim 2, whereinthe sensor is a small-sized detector having a size smaller than a size of a detector crystal of the detector module of the container or vehicle inspection system, and one small-sized detector of the measuring module is arranged on the longitudinal central line of the detector module of the container or vehicle inspection system. 5. The alignment system according to claim 1, whereinThe sensor arranged on the longitudinal central line of the detector module of the container or vehicle inspection system is a sensor located at a middle point of the measuring module. 6. The alignment system according to claim 2, whereinThe sensor arranged on the longitudinal central line of the detector module of the container or vehicle inspection system is a sensor located at a middle point of the measuring module. 7. The alignment system according to claim 3, whereinThe sensor arranged on the longitudinal central line of the detector module of the container or vehicle inspection system is a sensor located at a middle point of the measuring module. 8. The alignment system according to claim 4, whereinThe sensor arranged on the longitudinal central line of the detector module of the container or vehicle inspection system is a sensor located at a middle point of the measuring module. 9. The alignment system according to claim 5, whereinit is determined that rays passing through a collimator have been aligned with the detector module when a ray intensity value measured by the sensor of the measuring module located at the middle point of the detector module is the maximum. 10. An inspection system for a container or a vehicle, comprising a ray source, a collimator, a detector arm and a detector module mounted on the detector arm, the ray source, the collimator and the detector module being arranged to form an inspection passage, rays emitted from the ray source passing through collimator, irradiating onto an object to be inspected and collected by the detector module so as to complete inspection,wherein the inspection system further comprises the alignment system according to claim 1. 11. An alignment method for an inspection system for a container or a vehicle, comprising:arranging the alignment system according to claim 1 on a longitudinal central line of a detector module located on a detector arm of the container or vehicle inspection system;arranging a ray source, a collimator and the detector module of the container or vehicle inspection system to form an inspection passage, the ray source emitting rays, which pass through the collimator and are received by the measuring module of the alignment system and the detector module;determining a position of a main ray beam based on ray intensity maximum values fed back from respective sensors of the measuring module;calculating a difference between a position on the detector module to which the main ray beam irradiates and the position of the longitudinal central line of the detector module; andadjusting the position of the ray source, the collimator or the detector module so that position on the detector module to which the main ray beam irradiates coincides with the position of the longitudinal central line of the detector module.