High-precision wheel assembling device

The invention claimed is: 1. A high-precision wheel assembling device, comprising a frame, wherein a hollow base is fixed on the frame, a shaft sleeve is rotatably connected in the base, a flange plate is fixed on the shaft sleeve, an oil cylinder is fixed at the central part of the flange plate, a pull rod is vertically and upwards fixed at the output end of the oil cylinder, a wedge-shaped expanding core is fixed at the top of the pull rod, an expanding sleeve matched with the expanding core is fixed on the flange plate, the expanding core is driven by the pull rod to expand the expanding sleeve, and the expanding sleeve is tightly sleeved on a flange outside the expanding sleeve. 2. The high-precision wheel assembling device according to claim 1 , wherein at least one bearing is arranged between the base and the shaft sleeve, the outer ring of the bearing is in interference fit with the inner side of the base, and the inner ring of the bearing is in interference fit with the shaft sleeve. 3. The high-precision wheel assembling device according to claim 2 , wherein two bearings are arranged between the base and the shaft sleeve, and a spacer ring is arranged between the two bearings. 4. The high-precision wheel assembling device according to claim 3 , wherein the lower part of the base is provided with an inward protrusion, the shaft sleeve is provided with an outward protrusion, and the two bearings are respectively abutted against the outward protrusion of the shaft sleeve and the inward protrusion of the base. 5. The high-precision wheel assembling device according to claim 4 , wherein a base plate is fixed on the frame, and the base is fixed on the base plate. 6. The high-precision wheel assembling device according to claim 5 , wherein the flange plate is further provided with a positioning ring at the periphery of the expanding core, and the coaxiality of the positioning ring and the expanding core is smaller than 0.05 mm. 7. The high-precision wheel assembling device according to claim 5 , wherein the outer diameter of the expanding core is an inverted cone structure, the inner wall of the expanding core is a regular cone structure, and an outer diameter inverted cone surface and an inner wall regular cone surface of the expanding core are respectively matched with the upper end regular cone surface of the expanding sleeve and the upper end part inverted cone structure of the flange plate.