Wheel comprehensive detecting device

What is claimed is: 1. A wheel comprehensive detecting device, comprises a frame, lower guiding posts I, a lower servo motor I, lower guiding sleeves I, a lower fixing plate I, a lower lifting plate, a pulley I, a synchronous belt, a pulley II, a central shaft, a central bearing pedestal, a spring I, an end positioning shaft, a dial indicator I, a jackscrew, a fixing block, a sliding post, a lower cone shaft, an upper cone shaft, a cross hinge, an upper shaft I, an upper bearing pedestal I, an upper lifting plate, upper guiding posts, upper guiding sleeves, upper cylinders, a vertical plate, a lower servo motor II, a lower sliding plate I, a lower gear I, a lower rack I, a lower guiding rail I, lower servo electric cylinders I, a lower fixing plate II, lower guiding sleeves II, lower guiding posts II, a guiding key, a lifting sleeve, a lower gear II, a lower ring gear, a ring guiding rail, a lower plate I, a lower plate II, a lower guiding rail II, a lower plate III, a sensor I, a lower sliding plate II, a spring II, a lower guiding rail III, a lower plate IV, a lower top plate, a measuring sleeve, a measuring post, a lower rack III, a lower gear III, a lower servo motor III, a lower plate V, a lower servo electric cylinder II, a lower plate VI, a lower servo motor IV, lower servo electric cylinders III, a lower servo motor V, a lower sliding plate III, a lower guiding rail IV, a lower gear IV, a lower rack IV, a lower servo motor VI, a lower transversal plate I, a lower gear V, a lower rack V, a lower guiding rail V, a lower transversal plate II, a lower servo motor VII, a lower plate VII, a lower bearing pedestal I, a lower shaft I, a lower overturning frame, a lower servo motor VIII, a lower overturning plate, a dial indicator II, a sensor II, an upper servo motor I, an upper sliding plate, an upper guiding rail I, an upper gear I, an upper rack I, an upper gear II, an upper rack II, an upper transversal plate I, an upper servo motor II, an upper guiding rail II, an upper transversal plate II, an upper servo motor III, an upper shaft II, an upper bearing pedestal II, an upper overturning frame, an upper servo motor IV, an upper overturning plate, a dial indicator III and a sensor III, characterized in that the lower lifting and rotating system comprises: the four lower guiding sleeves I are fixed on the lower fixing plate I; the four lower guiding posts I matching with the four lower guiding sleeves I are fixed below the lower lifting plate; the two lower servo electric cylinders I are fixed below the fixing plate I, and the output end thereof is hinged to the lower part of the lower lifting plate; the lower servo motor I is fixed below the lower fixing plate I through a transition flange, and the output end thereof is fixed with the pulley I; the central bearing pedestal is fixed above the lower lifting plate; the central shaft is mounted inside the central bearing pedestal through a bearing; the pulley II is fixed below the central shaft; and the pulley I and the pulley II are connected by the synchronous belt, the measuring system I comprises: the end positioning shaft is mounted in a hole at the upper end of the central shaft through a bearing; the outer circumference of the sliding post is slidably matched with the inner hole of the end positioning shaft; the jackscrew is mounted on the end positioning shaft, and the top end thereof is engaged with the opening groove on the sliding post; the lower cone shaft is fixed on the top end of the sliding post; the spring I is mounted in the inner hole of the end positioning shaft and is placed on the lower end of the sliding post; the fixing block is fixed on left side above the central shaft; and the dial indicator I is fixed on the fixing block, and the probe thereof is mounted upward, the measuring system II comprises: the lower fixing plate II is fixed on the outer side of the central shaft; the four lower guiding sleeves II fixed on the lower fixing plate II; the four lower guiding posts II matching with the four lower guiding sleeves II are fixed below the lifting sleeve; the two lower servo electric cylinders III are fixed below the lower fixing plate II, and the output end thereof is hinged to the lower part of the lifting sleeve; the guiding key of the lifting sleeve is mounted on the outer side of the top end of the central shaft; the lower ring gear is fixed on the outside above the lifting sleeve; the ring guiding rail is also fixed on the outer side above the lifting sleeve, and is placed above the lower ring gear; the lower plate I is fixed on the slider of the ring guiding rail; the lower plate II is fixed above the lower plate I; the lower plate VI is fixed on the lower end of the right side of the lower plate I; the lower plate V is fixed on the upper end of right side of the lower plate VI; the lower servo motor IV is fixed above the lower plate VI, and the output end thereof is fixed with the lower gear II; the lower gear II is meshed with the lower ring gear; the lower plate III is mounted above the lower plate II through the lower guiding rail II; the lower servo electric cylinder II is fixed on the lower plate V, and the output end thereof is connected to the lower part of the lower plate III; the lower top plate is fixed above the lower plate III through the lower plate IV; the lower sliding plate II is mounted below the lower top plate through the lower guiding rail III; the measuring sleeve is fixed above the lower sliding plate II; the measuring post is matched with the measuring sleeve, and the top end thereof protrudes from the upper end surface of the lower top plate; the spring II is mounted inside the measuring sleeve, and is placed below the measuring post; the sensor I is fixed on the lower sliding plate II, and the top end thereof is in contact with the lower end surface of the measuring post; the lower servo motor III is fixed below the lower top plate through a lower flange, and the output end thereof is fixed with the lower gear III; the lower rack III is fixed on the right side of the lower sliding plate II; and the lower gear III is meshed with the lower rack III, the number of the sets of the measuring system II of the device corresponds to the number of wheel bolt holes, the upper pressing system comprises: the four upper guiding sleeves are fixed on the top end of the frame; the four upper guiding posts matching with the four upper guiding sleeves are fixed above the upper lifting plate; the two upper cylinders are also fixed on the top end of the frame, and the output end thereof is hinged to the upper part of the upper lifting plate; the upper bearing pedestal I is fixed below the upper lifting plate; the upper shaft I is mounted inside the upper bearing pedestal I through a bearing; and the lower end of the upper shaft I is fixed with the upper cone shaft through the cross hinge, the translation system comprises: the lower sliding plate I is mounted on the right side above the lower lifting plate through the lower guiding rail I; the lower rack I is fixed above the lower lifting plate; the lower servo motor II is fixed above the lower sliding plate I, and the output end thereof is fixed with the lower gear I; the lower gear I is meshed with the lower rack I; and the vertical plate is fixed above the lower sliding plate I, the measuring system III comprises: the lower sliding plate III is mounted on the left side of the vertical plate through the lower guiding rail IV; the lower rack IV is fixed on the left side of the vertical plate; the lower servo motor V is fixed on the left side of the lower sliding plate III, and the output end thereof is fixed with the lower gear IV; the lower gear IV is meshed with the lower rack IV; the lower transversal plate I is fixed above the lower sliding plate III; the lower servo motor VI is fixed below the lower transversal plate I, and the output end thereof is fixed with the lower rack V; the l