Device for detecting concave-convex of flange face of wheel

The invention claimed is: 1. A device for detecting concave-convex of a flange face of a wheel, being composed of a frame, a jacking cylinder, lower guide posts, a lifting table, a support column, a first inner ring adjusting cylinder, an inner ring guide rail, a second inner ring adjusting cylinder, a first inner ring sliding block, a second inner ring sliding block, a first electric cylinder, a second electric cylinder, a first detection bar, a second detection bar, piezoelectric sensors, a first outer ring adjusting cylinder, a second outer ring adjusting cylinder, a first outer ring guide rail, a second outer ring guide rail, a first outer ring sliding block, a second outer ring sliding block, a third electric cylinder, a fourth electric cylinder, a third detection bar, a fourth detection bar, a positioning cylinder, a left sliding plate, a right sliding plate, a first gear rack, positioning columns, an upper cylinder, a mobile platform, upper guide posts, a servo motor, a rotating table, a clamping guide rail, a clamping cylinder, a right sliding table, a second gear rack, a left sliding table, clamping arms and clamping jaws, wherein a transverse groove and two longitudinal grooves are formed inside the support column, the first inner ring adjusting cylinder and the second inner ring adjusting cylinder being symmetrically mounted in the transverse groove, the output end of the first inner ring adjusting cylinder being connected with the first inner ring sliding block, the output end of the second inner ring adjusting cylinder being connected with the second inner ring sliding block, and both the first inner ring sliding block and the second inner ring sliding block being mounted on the inner ring guide rail; the first electric cylinder being mounted on the first inner ring sliding block, the first detection bar being mounted at the output end of the first electric cylinder, and a piezoelectric sensor being mounted on the first detection bar; the second electric cylinder being mounted on the second inner ring sliding block, the second detection bar being mounted at the output end of the second electric cylinder, and a piezoelectric sensor being mounted on the second detection bar; the distance between the first detection bar and the second detection bar being able of being adjusted via the first inner ring adjusting cylinder and the second inner ring adjusting cylinder, so that the inner rings of multiple flange diameters can be detected; the first outer ring adjusting cylinder and the second outer ring adjusting cylinder being symmetrically mounted in the longitudinal grooves, the output end of the first outer ring adjusting cylinder being connected with the first outer ring sliding block, the output end of the second outer ring adjusting cylinder being connected with the second outer ring sliding block, the first outer ring sliding block being mounted on the first outer ring guide rail, and the second outer ring sliding block being mounted on the second outer ring guide rail; the third electric cylinder being mounted on the first outer ring sliding block, the third detection bar being mounted at the output end of the third electric cylinder, and a piezoelectric sensor being mounted on the third detection bar; the fourth electric cylinder being mounted on the second outer ring sliding block, the fourth detection bar being mounted at the output end of the fourth electric cylinder, and a piezoelectric sensor being mounted on the fourth detection bar, and the distance between the third detection bar and the fourth detection bar being able of being adjusted via the first outer ring adjusting cylinder and the second outer ring adjusting cylinder, so that the outer rings of multiple flange diameters can be detected.