Wheel back cavity groove processing equipment

What is claimed is: 1. A wheel back cavity groove processing equipment, comprising a frame, a first cylinder, four lower guide posts, a rotary joint, a spline shaft, a first servo motor, a first belt pulley, a first synchronous belt, a first bearing seat, a lower fixed plate, four lower guide sleeves, a spline sleeve, a first bearing seat, a lower lifting plate, first servo electric first racks, second servo motors, first servo electric cylinders, turnover plates, second bearing seats, first shafts, small grinding heads, a spring, a sliding sleeve, a conical grinding head, a third belt pulley, a first annular belt brush, a first fixed rack, a third servo motor, a fourth belt pulley, a second servo electric cylinder, a second guide rail, a first sliding plate, a third guide rail, an upper lifting plate, four upper guide posts, four upper guide sleeves, two second cylinders, a second sliding plate, a fourth guide rail, a third servo electric cylinder, a fourth servo motor, a fifth belt pulley, a second synchronous belt, a second fixed rack, a sixth belt pulley, a seventh belt pulley, a third fixed rack, an eight belt pulley, a second annular belt brush, sliding racks, a deflector rod, a first gear, a swivel, two third cylinders, an upper fixed plate, a second gear, two second racks, a fifth guide rail, a left sliding plate, two left shafts, two left bearing seats, four V-shaped rollers, a fourth servo electric cylinder, two right shafts, two right bearing seats, a right sliding plate, a fourth cylinder, a fifth servo motor and a fifth servo electric cylinder, wherein the wheel back cavity groove processing equipment comprising a lower lifting system, a central brush system, a groove brush system, a synchronous clamping and rotating system, a left brush system, a right brush system, and a upper lifting system, the lower lifting system is as follows: the two third cylinders and the four lower guide sleeves are all fixed on the lower fixed plate, and the four lower guide posts matched with the four lower guide sleeves are fixed below the lower lifting plate; and an output ends of the two third cylinders are articulated with a lower part of the lower lifting plate; the central brush system is as follows: the first bearing seat is fixed below the lower lifting plate; the spline sleeve is mounted inside the first bearing seat via a bearing; the spline shaft is matched with the spline sleeve; the first cylinder is fixed at the bottom of the frame, and the rotary joint is fixed at the output end of the first cylinder; an upper part of the rotary joint is connected with a lower part of the spline shaft; the first belt pulley is fixed below the spline sleeve; the first servo motor is fixed below the lower lifting plate via a transition flange; the second belt pulley is fixed at the output end of the first servo motor; the first belt pulley is connected with the second belt pulley via the synchronous belt; the spline shaft is matched with the first bearing seat; the deflector rod is fixed above the spline shaft; the spring is mounted inside the sliding sleeve, and reaches a top of the spline shaft; and the conical grinding head is fixed at a top of the sliding sleeve; the groove brush system is as follows: each of the sliding racks is mounted above the lower lifting plate via one of the first guide rails; each of the first racks is fixed on one of the sliding racks, and engaged with the first gear; an upper part of the first gear is provided with a groove matched with the deflector rod, and a lower part of the first gear is mounted above the lower lifting plate via the swivel; each of the second bearing seats is mounted above one of the turnover plates; each of the first shafts is mounted inside one of the second bearing seats via bearings; each of the small grinding heads is fixed above one of the first shafts; each of the second servo motors is fixed below one of turnover plates, and an output end of each of the second servo motors is connected with the lower part of one of the first shafts; lower part of each of the turnover plates is articulated with upper part of one of the sliding racks; lower part of each of the first servo electric cylinders is articulated with upper part of one of the sliding racks, and an output end of each of the first servo electric cylinders is articulated with one of the turnover plates; the wheel back cavity groove equipment comprises a plurality of sets of groove brush systems, which are uniformly distributed around a center line of the first gear and correspond to bolt holes on the wheel in number; the synchronous clamping and rotating system is as follows: the second gear is fixed above the upper fixed plate; the left sliding plate is mounted above the upper fixed plate via the fifth guide rail; one of the two second racks is fixed below the left sliding plate, and the two left bearing seats are fixed above the left sliding plate; the two left shafts are mounted inside the two left bearing seats via bearings; two of the four V-shaped rollers are respectively mounted above the two left shafts; the right sliding plate is mounted above the upper fixed plate via the fifth guide rail; the other of the two second racks is fixed below the right sliding plate, and the two right bearing seats are fixed above the right sliding plate; the second rack below the left sliding plate and the second rack below the right sliding plate are simultaneously engaged with the second gear; the two right shafts are mounted inside the two right bearing seats via bearings; the other two of the four V-shaped rollers are respectively mounted above the two right shafts; the fifth servo motor is fixed below the right sliding plate, and the output end of the fifth servo motor is connected with the lower end of one of the two right shafts; fourth cylinder is fixed on the right of the frame, and an output end of the fourth cylinder is connected with the right sliding plate; the left brush system is as follows: the third belt pulley is mounted below the first fixed rack; the fourth belt pulley is mounted above the first fixed rack; the third servo motor is mounted on side of the first fixed rack, and an output end of the third servo motor is connected with a shaft of the fourth belt pulley; the first annular belt brush is simultaneously connected with the third belt pulley and the fourth belt pulley; a top of the first fixed rack is mounted below the first sliding plate via the second guide rail; the first sliding plate is mounted below the upper lifting plate via the third guide rail; the second servo electric cylinder is fixed on left side of the upper lifting plate, and an output end of the second servo electric cylinder is connected with the first sliding plate; the fourth servo electric cylinder is fixed at one end of the first sliding plate, and an output end of the fourth servo electric cylinder is connected with the first fixed rack; the right brush system is as follows: the eighth belt pulley is mounted below the third fixed rack; the third fixed rack is fixed below the second fixed rack; the sixth belt pulley is mounted on the right side of the seventh belt pulley, and mounted below the second fixed rack; the fourth servo motor is fixed above a middle division plate of the second fixed rack, and the fifth belt pulley is fixed at an output end of the fourth servo motor; the fifth belt pulley is connected with the sixth belt pulley via the second synchronous belt; the seventh belt pulley is connected with the eighth belt pulley via the second annular belt brush; a top of the second fixed rack is mounted below the second sliding plate via the fourth guide rail; a top of the second sliding plate is mounted below the upper lifting plate via the third guide rail; the third servo electric cylinder is fixed on right side of the upper lifting plate, and an output end of the third servo electric cylinder is connected with the second slid