CN205236679U - Online circularity correcting unit of wheel blank - Google Patents

Abstract

The utility model relates to an online circularity correcting unit of wheel blank comprises jacking rotating system, left correction system, right correction system, positioning system placed in the middle. The utility model discloses in use can realize wheel blank's online circularity calibration function to wheel after the correction has good circularity and cylindricity, not only can reduce workman's intensity of labour, has the characteristics of degree of automation height, technology advanced person, simple structure, performance safety and stability simultaneously.

Description

The online roundness correcting device of a kind of wheel blanks

Technical field

The utility model relates to a kind of roundness correcting device, specifically the online roundness correcting device of a kind of wheel blanks.

Background technology

In the heat treatment process of aluminum-alloy wheel, because the impact of some factors, the circularity at wheel rim and wheel rim place can produce certain distortion, if do not carry out circularity correction, and the yield rate when having a strong impact on machined. The conventional method of multiple wear wheel circularity is that artificial hand-held circularity gauge finds distortion place, again with hydraulic cylinder by force by its inner support, dependence experience is roughly repaired, and but this method has some effects for the wheel of circularity depression be not obvious, absolutely void for this method of wheel of circularity projection. Not only efficiency is low for this method simultaneously, and labour intensity is large, and repairing effect does not reach desirable requirement far away, and probably makes wheel blanks interior tissue produce damage because support is excessive.

Summary of the invention

The purpose of this utility model is to provide a kind of wheel blanks online roundness correcting device, can realize the online circularity calibration function of wheel blanks, and proofread and correct after wheel there is good circularity and cylindricity.

The online roundness correcting device of a kind of wheel blanks, comprises jacking rotary system, left corrective system, centering positioning system, right corrective system.

Jacking rotary system comprises lower servomotor, base plate, guide pillar, guide pin bushing, rotating shaft, lower lifter plate, large bearing block, chuck, radially piece, corner cylinder, jacking hydraulic cylinder. Four guide pin bushings are fixed on base plate, and four guide pillars that coordinate with guide pin bushing are fixed on lower lifter plate below. Two jacking hydraulic cylinders are fixed on the below of base plate, and the below of its output and lower lifter plate is hinged. Large bearing block is fixed on lower lifter plate top, and lower servomotor is fixed on lower lifter plate below, and its output is connected with the rotating shaft being arranged in large rotating shaft bearing. Four pawls are separately installed with the radially chuck of piece and corner cylinder, are fixed on rotating shaft top.

Left corrective system comprises left platform, left cross rail I, left slide unit, left hydraulic cylinder I, left riser, left tooth bar, left perpendicular guide rail, left plate I, left gear I, left servomotor I, left servomotor II, left plate II, left plate III, left plate IV, left hydraulic cylinder II, left gear II, left servomotor III, left cross rail II, left skateboard, left belt wheel I, left servomotor IV, left Timing Belt I, left belt wheel II, left axle I, left shaft holder I, left roller finder, left axle II, left V-type roller, left shaft holder II, left plate V, left belt wheel III, left Timing Belt II, left belt wheel IV. left slide unit is arranged on left platform top by left cross rail I, and left hydraulic cylinder I is also fixed on left platform top, and its output is connected with left slide unit. left riser is fixed on left slide unit top. left tooth bar is fixed on the right side of left riser. left plate I is erected guide rails assembling on left riser right side by a left side. left plate II is fixed on top, left plate I right side, and left plate V is fixed on below, left plate I right side. the left servomotor I that output is provided with left gear I is arranged on left plate I right side. left gear I engages with left tooth bar. the left servomotor II that output is provided with left belt wheel IV is fixed on the top of left plate V. left shaft holder II is also arranged on the top of left plate V, top is provided with left V-type roller, the left axle II that below is fixed with left belt wheel III is arranged on left shaft holder II inside by bearing, and its upper end is arranged in the bearing in left plate II simultaneously, and left belt wheel III is connected by left Timing Belt II with left belt wheel IV. left plate IV is erected guide rails assembling on left riser right side by a left side. left plate III is fixed on the below, right side of left plate IV. the left servomotor III that output is provided with left gear II is fixed on left riser right side, and left gear II engages with left tooth bar. left skateboard is arranged on left plate III top by left cross rail II. left hydraulic cylinder II is also fixed on left plate III top, and its output is connected with left skateboard. the left servomotor IV that output is provided with left belt wheel I is fixed on left skateboard top. two left shaft holder I are fixed on left skateboard below, upper end is fixed with left belt wheel II, two left axle I that lower end is provided with left roller finder are arranged on respectively two left shaft holder I inside by bearing, and left belt wheel I is connected by left Timing Belt I with two left belt wheel II.

Centering positioning system comprises pinch roll, upper rail, upper rack, cogs, upper lifter plate, upper hydraulic cylinder, upper guide post, upper guide bush, upper left slide plate, upper left slide plate and upper right slide plate below are fixed with respectively two pinch rolls, are arranged on upper lifter plate below by upper rail. On upper left slide plate and upper right slide plate, be fixed with respectively two upper racks, cog and engage with two that are fixed on upper lifter plate below. Clamping cylinder is fixed on lifter plate below, and its output is connected with the top of upper right slide plate. Four upper guide posts are fixed on lifter plate top, match with four upper guide bush that are fixed on frame top. Two upper hydraulic cylinders are also fixed on frame top, and its output and upper lifter plate top are hinged.

Right corrective system comprises upper right slide plate, clamping cylinder, right riser, right tooth bar, right perpendicular guide rail, right panel I, right gear I, right servomotor I, right servomotor II, right panel II, right panel III, right panel IV, right hydraulic cylinder II, right gear II, right servomotor III, right cross rail II, right slide plate, right belt wheel I, right servomotor IV, right Timing Belt I, right belt wheel II, right axle I, right bearing seat I, right roller finder, right axle II, right V-type roller, right bearing seat II, right panel V, right belt wheel III, right Timing Belt II, right belt wheel IV, right hydraulic cylinder I, right slide unit, right cross rail I, right platform. right slide unit is arranged on right platform top by right cross rail I. right hydraulic cylinder I is also fixed on top, right platform top, and its output is connected with right slide unit. right riser is fixed on right slide unit top, and right tooth bar is fixed on the right side of right riser. right panel I is erected guide rails assembling in right riser left side by the right side. right panel II is fixed on top, right panel I left side, and right panel V is fixed on below, right panel I left side. the right servomotor I that output is provided with right gear I is arranged on right panel I left side. right gear I engages with right tooth bar. the right servomotor II that output is provided with right belt wheel IV is fixed on the top of right panel V. two right bearing seat II are also arranged on the top of right panel V, top is separately installed with right V-type roller, two right axle II that below is fixed with respectively right belt wheel III are arranged on two right bearing seat II inside by bearing, its upper end is arranged in the bearing in right panel II simultaneously, and two right belt wheel III are connected by right Timing Belt II with right belt wheel IV. right panel IV is erected guide rails assembling in right riser left side by the right side. right panel III is fixed on the below, left side of right panel IV. the right servomotor III that output is provided with right gear II is fixed on right panel IV left side, and right gear II engages with right tooth bar. right slide plate is arranged on right panel III top by right cross rail II. right hydraulic cylinder II is also fixed on right panel III top, and its output is connected with right slide plate. the right servomotor IV that output is provided with right belt wheel I is fixed on right slide plate top. right bearing seat I is fixed on right slide plate below, and upper end is fixed with right belt wheel II, and two right axle I that lower end is provided with right roller finder are arranged on right bearing seat I inside by bearing, and right belt wheel I is connected by right Timing Belt I with right belt wheel II.

When actual use, centering positioning system is located the wheel on roller-way between two parties, and jacking hydraulic cylinder makes chuck jacking, and wheel is first radially locating in piece, and four corner cylinders are clamped again, and lower servomotor can make the rotation of wheel after clamping. Right servomotor I can realize the location of two right V-type roller short transverses, and right servomotor II makes its rotation, and right hydraulic cylinder I makes the right V-type roller of two rotations contact all the time the outer rim of wheel, and plays a supporting role. Right servomotor III makes right roller finder short transverse location, and right servomotor IV is rotated it, runs into wheel recess, and right hydraulic cylinder II pulls the right roller finder of rotation to the right, vehicle wheel rotation after a few circularity herein can recover. Left servomotor I realizes the location of left V-type roller short transverse, and left servomotor II makes its rotation. Left servomotor III realizes the location of two left roller finder short transverses, left servomotor IV drives its rotation, left hydraulic cylinder II makes two left roller finders contact all the time the inner rim place of wheel, and play a supporting role, when running into wheel high spot, left hydraulic cylinder I makes the left V-type roller shallow wheel high spot to the right rotating, vehicle wheel rotation after a few circularity herein can recover.

The utility model in use can be realized the online circularity calibration function of wheel blanks, and the wheel after proofreading and correct has good circularity and cylindricity, not only can reduce workman's labour intensity, there is the feature that automaticity is high, technique is advanced, simple in structure, performance safety is stable simultaneously.

Brief description of the drawings

Fig. 1 is the front view of the online roundness correcting device of a kind of wheel blanks of the utility model.

Fig. 2 is the partial left side view of the online roundness correcting device of a kind of wheel blanks of the utility model.

Fig. 3 is the partial right side view of the online roundness correcting device of a kind of wheel blanks of the utility model.

Front view when Fig. 4 is the online roundness correcting device work of a kind of wheel blanks of the utility model.

Fig. 5 is the top view of the online roundness correcting device of a kind of wheel blanks of the utility model left and right corrective system.

Fig. 6 is the top view of the online roundness correcting device jacking rotary of a kind of wheel blanks of the utility model system.

Fig. 7 is the front view of the left corrective system of the online roundness correcting device of a kind of wheel blanks of the utility model.

Fig. 8 is the front view of the right corrective system of the online roundness correcting device of a kind of wheel blanks of the utility model.

In figure, 1-frame, servomotor under 2-, 3-base plate, 4-guide pillar, 5-guide pin bushing, 6-rotating shaft, lifter plate under 7-, the large bearing block of 8-, 9-chuck, 10-is piece radially, 11-corner cylinder, the left platform of 12-, the left cross rail I of 13-, the left slide unit of 14-, 15-left hydraulic cylinder I, the left riser of 16-, the left tooth bar of 17-, the left perpendicular guide rail of 18-, the left plate I of 19-, 20-left gear I, the left servomotor I of 21-, the left servomotor II of 22-, the left plate II of 23-, the left plate III of 24-, the left plate IV of 25-, 26-left hydraulic cylinder II, 27-left gear II, the left servomotor III of 28-, the left cross rail II of 29-, 30-left skateboard, the left belt wheel I of 31-, the left servomotor IV of 32-, the left Timing Belt I of 33-, the left belt wheel II of 34-, the left axle I of 35-, 36-left shaft holder I, the left roller finder of 37-, the left axle II of 38-, the left V-type roller of 39-, 40-left shaft holder II, the left plate V of 41-, the left belt wheel III of 42-, the left Timing Belt II of 43-, the left belt wheel IV of 44-, 45-pinch roll, 46-upper rail, 47-upper rack, 48-cogs, the upper lifter plate of 49-, the upper hydraulic cylinder of 50-, 51-upper guide post, 52-upper guide bush, 53-upper left slide plate, 54-upper right slide plate, 55-clamping cylinder, the right riser of 56-, the right tooth bar of 57-, the right perpendicular guide rail of 58-, 59-right panel I, 60-right gear I, the right servomotor I of 61-, the right servomotor II of 62-, 63-right panel II, 64-right panel III, 65-right panel IV, the right hydraulic cylinder II of 66-, 67-right gear II, the right servomotor III of 68-, the right cross rail II of 69-, the right slide plate of 70-, the right belt wheel I of 71-, the right servomotor IV of 72-, the right Timing Belt I of 73-, the right belt wheel II of 74-, the right axle I of 75-, 76-right bearing seat I, the right roller finder of 77-, the right axle II of 78-, the right V-type roller of 79-, 80-right bearing seat II, 81-right panel V, the right belt wheel III of 82-, the right Timing Belt II of 83-, the right belt wheel IV of 84-, the right hydraulic cylinder I of 85-, the right slide unit of 86-, the right cross rail I of 87-, the right platform of 88-, 89-jacking hydraulic cylinder.

Detailed description of the invention

Details and working condition below in conjunction with brief description of the drawings according to the concrete device the utility model proposes.

The online roundness correcting device of a kind of wheel blanks, comprises jacking rotary system, left corrective system, centering positioning system, right corrective system.

Jacking rotary system comprises lower servomotor 2, base plate 3, guide pillar 4, guide pin bushing 5, rotating shaft 6, lower lifter plate 7, large bearing block 8, chuck 9, radially piece 10, corner cylinder 11, jacking hydraulic cylinder 89. Four guide pin bushings 5 are fixed on base plate 3, and four guide pillars 4 that coordinate with guide pin bushing 5 are fixed on lower lifter plate 7 belows. Two jacking hydraulic cylinders 89 are fixed on the below of base plate 3, and the below of its output and lower lifter plate 7 is hinged. Large bearing block 8 is fixed on lower lifter plate 7 tops, and lower servomotor 2 is fixed on lower lifter plate 7 belows, and its output is connected with the rotating shaft 6 being arranged in large rotating shaft bearing 8. Four pawls are separately installed with the radially chuck 9 of piece 10 and corner cylinder 11, are fixed on rotating shaft 6 tops.

Left corrective system comprises left platform 12, left cross rail I 13, left slide unit 14, left hydraulic cylinder I 15, left riser 16, left tooth bar 17, left perpendicular guide rail 18, left plate I 19, left gear I 20, left servomotor I 21, left servomotor II 22, left plate II 23, left plate III 24, left plate IV 25, left hydraulic cylinder II 26, left gear II 27, left servomotor III 28, left cross rail II 29, left skateboard 30, left belt wheel I 31, left servomotor IV 32, left Timing Belt I 33, left belt wheel II 34, left axle I 35, left shaft holder I 36, left roller finder 37, left axle II 38, left V-type roller 39, left shaft holder II 40, left plate V 41, left belt wheel III 42, left Timing Belt II 43, left belt wheel IV 44. left slide unit 14 is arranged on left platform 12 tops by left cross rail I 13, and left hydraulic cylinder I 15 is also fixed on left platform 12 tops, and its output is connected with left slide unit 14. left riser 16 is fixed on left slide unit 14 tops. left tooth bar 17 is fixed on the right side of left riser 16. left plate I 19 is erected guide rail 18 by a left side and is arranged on left riser 16 right sides. left plate II 23 is fixed on left plate I 19 tops, right side, and left plate V 41 is fixed on left plate I 19 belows, right side. the left servomotor I 21 that output is provided with left gear I 20 is arranged on left plate I 19 right sides. left gear I 20 engages with left tooth bar 17. the left servomotor II 22 that output is provided with left belt wheel IV 44 is fixed on the top of left plate V 41. left shaft holder II 40 is also arranged on the top of left plate V 41, top is provided with left V-type roller 39, the left axle II 38 that below is fixed with left belt wheel III 42 is arranged on left shaft holder II 40 inside by bearing, its upper end is arranged in the bearing in left plate II 23 simultaneously, and left belt wheel III 42 is connected by left Timing Belt II 43 with left belt wheel IV 44. left plate IV 25 is erected guide rail 18 by a left side and is arranged on left riser 16 right sides. left plate III 24 is fixed on the below, right side of left plate IV 25. the left servomotor III 28 that output is provided with left gear II 27 is fixed on left riser 16 right sides, and left gear II 27 engages with left tooth bar 17. left skateboard 30 is arranged on left plate III 24 tops by left cross rail II 29. left hydraulic cylinder II 26 is also fixed on left plate III 24 tops, and its output is connected with left skateboard 30. the left servomotor IV 32 that output is provided with left belt wheel I 31 is fixed on left skateboard 30 tops. two left shaft holder I 36 are fixed on left skateboard 30 belows, upper end is fixed with left belt wheel II 34, two left axle I 35 that lower end is provided with left roller finder 37 are arranged on respectively two left shaft holder I 36 inside by bearing, and left belt wheel I 31 is connected by left Timing Belt I 33 with two left belt wheel II 34.

Centering positioning system comprises pinch roll 45, upper rail 46, upper rack 47, cog 48, upper lifter plate 49, upper hydraulic cylinder 50, upper guide post 51, upper guide bush 52, upper left slide plate 53. Upper left slide plate 53 and upper right slide plate 54 belows are fixed with respectively two pinch rolls 45, are arranged on upper lifter plate 49 belows by upper rail 46. On upper left slide plate 53 and upper right slide plate 54, be fixed with respectively two upper racks 47, cog and 48 engage with two that are fixed on upper lifter plate 49 belows. Clamping cylinder 55 is fixed on lifter plate 49 belows, and its output is connected with the top of upper right slide plate 54. Four upper guide posts 51 are fixed on lifter plate 49 tops, match with four upper guide bush 52 that are fixed on frame 1 top. Two upper hydraulic cylinders 50 are also fixed on frame 1 top, and its output and upper lifter plate 49 tops are hinged.

Right corrective system comprises upper right slide plate 54, clamping cylinder 55, right riser 56, right tooth bar 57, right perpendicular guide rail 58, right panel I 59, right gear I 60, right servomotor I 61, right servomotor II 62, right panel II 63, right panel III 64, right panel IV 65, right hydraulic cylinder II 66, right gear II 67, right servomotor III 68, right cross rail II 69, right slide plate 70, right belt wheel I 71, right servomotor IV 72, right Timing Belt I 73, right belt wheel II 74, right axle I 75, right bearing seat I 76, right roller finder 77, right axle II 78, right V-type roller 79, right bearing seat II 80, right panel V 81, right belt wheel III 82, right Timing Belt II 83, right belt wheel IV 84, right hydraulic cylinder I 85, right slide unit 86, right cross rail I 87, right platform 88. right slide unit 86 is arranged on right platform 88 tops by right cross rail I 87. right hydraulic cylinder I 85 is also fixed on right platform 88 tops, top, and its output is connected with right slide unit 86. right riser 56 is fixed on right slide unit 86 tops, and right tooth bar 57 is fixed on the right side of right riser 56. right panel I 59 is erected guide rail 58 by the right side and is arranged on right riser 56 left sides. right panel II 63 is fixed on right panel I 59 tops, left side, and right panel V 81 is fixed on right panel I 59 belows, left side. the right servomotor I 61 that output is provided with right gear I 60 is arranged on right panel I 59 left sides. right gear I 60 engages with right tooth bar 57. the right servomotor II 62 that output is provided with right belt wheel IV 84 is fixed on the top of right panel V 81. two right bearing seat II 80 are also arranged on the top of right panel V 81, top is separately installed with right V-type roller 79, two right axle II 78 that below is fixed with respectively right belt wheel III 82 are arranged on two right bearing seat II 80 inside by bearing, its upper end is arranged in the bearing in right panel II 63 simultaneously, and two right belt wheel III 82 are connected by right Timing Belt II 83 with right belt wheel IV 84. right panel IV 65 is erected guide rail 58 by the right side and is arranged on right riser 56 left sides. right panel III 64 is fixed on the below, left side of right panel IV 65. the right servomotor III 68 that output is provided with right gear II 67 is fixed on right panel IV 65 left sides, and right gear II 67 engages with right tooth bar 57. right slide plate 70 is arranged on right panel III 64 tops by right cross rail II 69. right hydraulic cylinder II 66 is also fixed on right panel III 64 tops, and its output is connected with right slide plate 70. the right servomotor IV 72 that output is provided with right belt wheel I 71 is fixed on right slide plate 70 tops. right bearing seat I 76 is fixed on right slide plate 70 belows, upper end is fixed with right belt wheel II 74, two right axle I 75 that lower end is provided with right roller finder 77 are arranged on right bearing seat I 76 inside by bearing, and right belt wheel I 71 is connected by right Timing Belt I 73 with right belt wheel II 74.

In the course of the work, centering positioning system is located the wheel on roller-way between two parties, and jacking hydraulic cylinder 89 makes chuck 9 jackings, and wheel is location in piece 10 radially first, and four corner cylinders 11 are clamped again, and lower servomotor 2 can make the rotation of wheel after clamping. Right servomotor I 61 can realize the location of two right V-type roller 79 short transverses, and right servomotor II 62 makes its rotation, and right hydraulic cylinder I 85 makes the right V-type roller 79 of two rotations contact all the time the outer rim of wheel, and plays a supporting role. Right servomotor III 68 makes right roller finder 77 short transverses location, and right servomotor IV 72 is rotated it, runs into wheel recess, and right hydraulic cylinder II 66 pulls the right roller finder 77 of rotation to the right, vehicle wheel rotation after a few circularity herein can recover. Left servomotor I 21 realizes the location of left V-type roller 39 short transverses, and left servomotor II 22 makes its rotation. Left servomotor III 28 realizes the location of two left roller finder 37 short transverses, left servomotor IV 32 drives its rotation, left hydraulic cylinder II 26 makes two left roller finders 37 contact all the time the inner rim place of wheel, and play a supporting role, when running into wheel high spot, left hydraulic cylinder I 15 makes the left V-type roller 39 shallow wheel high spot to the right rotating, vehicle wheel rotation after a few circularity herein can recover.

Claims (1)

1. the online roundness correcting device of wheel blanks, comprises jacking rotary system, left corrective system, centering positioning system, right corrective system, it is characterized in that:

Jacking rotary system comprises lower servomotor (2), base plate (3), guide pillar (4), guide pin bushing (5), rotating shaft (6), lower lifter plate (7), large bearing block (8), chuck (9), radially piece (10), corner cylinder (11), jacking hydraulic cylinder (89); It is upper that four guide pin bushings (5) are fixed on base plate (3), and four guide pillars (4) that coordinate with guide pin bushing (5) are fixed on lower lifter plate (7) below; Two jacking hydraulic cylinders (89) are fixed on the below of base plate (3), and the below of its output and lower lifter plate (7) is hinged; Large bearing block (8) is fixed on lower lifter plate (7) top, and lower servomotor (2) is fixed on lower lifter plate (7) below, and its output is connected with the rotating shaft (6) being arranged in large rotating shaft bearing (8); Four pawls are separately installed with the radially chuck (9) of piece (10) and corner cylinder (11), are fixed on rotating shaft (6) top;

Left corrective system comprises left platform (12), left cross rail I (13), left slide unit (14), left hydraulic cylinder I (15), left riser (16), left tooth bar (17), left perpendicular guide rail (18), left plate I (19), left gear I (20), left servomotor I (21), left servomotor II (22), left plate II (23), left plate III (24), left plate IV (25), left hydraulic cylinder II (26), left gear II (27), left servomotor III (28), left cross rail II (29), left skateboard (30), left belt wheel I (31), left servomotor IV (32), left Timing Belt I (33), left belt wheel II (34), left axle I (35), left shaft holder I (36), left roller finder (37), left axle II (38), left V-type roller (39), left shaft holder II (40), left plate V (41), left belt wheel III (42), left Timing Belt II (43), left belt wheel IV (44), left slide unit (14) is arranged on left platform (12) top by left cross rail I (13), and left hydraulic cylinder I (15) is also fixed on left platform (12) top, and its output is connected with left slide unit (14), left riser (16) is fixed on left slide unit (14) top, left tooth bar (17) is fixed on the right side of left riser (16), left plate I (19) is erected guide rail (18) by a left side and is arranged on left riser (16) right side, left plate II (23) is fixed on top, left plate I (19) right side, and left plate V (41) is fixed on below, left plate I (19) right side, the left servomotor I (21) that output is provided with left gear I (20) is arranged on left plate I (19) right side, left gear I (20) engages with left tooth bar (17), the left servomotor II (22) that output is provided with left belt wheel IV (44) is fixed on the top of left plate V (41), left shaft holder II (40) is also arranged on the top of left plate V (41), top is provided with left V-type roller (39), the left axle II (38) that below is fixed with left belt wheel III (42) is arranged on left shaft holder II (40) inside by bearing, its upper end is arranged in the bearing in left plate II (23) simultaneously, and left belt wheel III (42) is connected by left Timing Belt II (43) with left belt wheel IV (44), left plate IV (25) is erected guide rail (18) by a left side and is arranged on left riser (16) right side, left plate III (24) is fixed on the below, right side of left plate IV (25), the left servomotor III (28) that output is provided with left gear II (27) is fixed on left riser (16) right side, and left gear II (27) engages with left tooth bar (17), left skateboard (30) is arranged on left plate III (24) top by left cross rail II (29), left hydraulic cylinder II (26) is also fixed on left plate III (24) top, and its output is connected with left skateboard (30), the left servomotor IV (32) that output is provided with left belt wheel I (31) is fixed on left skateboard (30) top, two left shaft holder I (36) are fixed on left skateboard (30) below, upper end is fixed with left belt wheel II (34), two left axle I (35) that lower end is provided with left roller finder (37) are arranged on respectively two left shaft holder I (36) inside by bearing, and left belt wheel I (31) is connected by left Timing Belt I (33) with two left belt wheel II (34),

Centering positioning system comprises pinch roll (45), upper rail (46), upper rack (47), cog (48), upper lifter plate (49), upper hydraulic cylinder (50), upper guide post (51), upper guide bush (52), upper left slide plate (53), upper left slide plate (53) and upper right slide plate (54) below are fixed with respectively two pinch rolls (45), are arranged on upper lifter plate (49) below by upper rail (46); On upper left slide plate (53) and upper right slide plate (54), be fixed with respectively two upper racks (47), engage with two cog (48) being fixed on upper lifter plate (49) below; Clamping cylinder (55) is fixed on lifter plate (49) below, and its output is connected with the top of upper right slide plate (54); Four upper guide posts (51) are fixed on lifter plate (49) top, match with four upper guide bush (52) that are fixed on frame (1) top; Two upper hydraulic cylinders (50) are also fixed on frame (1) top, and its output and upper lifter plate (49) top are hinged;

Right corrective system comprises upper right slide plate (54), clamping cylinder (55), right riser (56), right tooth bar (57), right perpendicular guide rail (58), right panel I (59), right gear I (60), right servomotor I (61), right servomotor II (62), right panel II (63), right panel III (64), right panel IV (65), right hydraulic cylinder II (66), right gear II (67), right servomotor III (68), right cross rail II (69), right slide plate (70), right belt wheel I (71), right servomotor IV (72), right Timing Belt I (73), right belt wheel II (74), right axle I (75), right bearing seat I (76), right roller finder (77), right axle II (78), right V-type roller (79), right bearing seat II (80), right panel V (81), right belt wheel III (82), right Timing Belt II (83), right belt wheel IV (84), right hydraulic cylinder I (85), right slide unit (86), right cross rail I (87), right platform (88), right slide unit (86) is arranged on right platform (88) top by right cross rail I (87), right hydraulic cylinder I (85) is also fixed on top, right platform (88) top, and its output is connected with right slide unit (86), right riser (56) is fixed on right slide unit (86) top, and right tooth bar (57) is fixed on the right side of right riser (56), right panel I (59) is erected guide rail (58) by the right side and is arranged on right riser (56) left side, right panel II (63) is fixed on top, right panel I (59) left side, and right panel V (81) is fixed on below, right panel I (59) left side, the right servomotor I (61) that output is provided with right gear I (60) is arranged on right panel I (59) left side, right gear I (60) engages with right tooth bar (57), the right servomotor II (62) that output is provided with right belt wheel IV (84) is fixed on the top of right panel V (81), two right bearing seat II (80) are also arranged on the top of right panel V (81), top is separately installed with right V-type roller (79), two right axle II (78) that below is fixed with respectively right belt wheel III (82) are arranged on two right bearing seat II (80) inside by bearing, its upper end is arranged in the bearing in right panel II (63) simultaneously, and two right belt wheel III (82) are connected by right Timing Belt II (83) with right belt wheel IV (84), right panel IV (65) is erected guide rail (58) by the right side and is arranged on right riser (56) left side, right panel III (64) is fixed on the below, left side of right panel IV (65), the right servomotor III (68) that output is provided with right gear II (67) is fixed on right panel IV (65) left side, and right gear II (67) engages with right tooth bar (57), right slide plate (70) is arranged on right panel III (64) top by right cross rail II (69), right hydraulic cylinder II (66) is also fixed on right panel III (64) top, and its output is connected with right slide plate (70), the right servomotor IV (72) that output is provided with right belt wheel I (71) is fixed on right slide plate (70) top, right bearing seat I (76) is fixed on right slide plate (70) below, upper end is fixed with right belt wheel II (74), two right axle I (75) that lower end is provided with right roller finder (77) are arranged on right bearing seat I (76) inside by bearing, and right belt wheel I (71) is connected by right Timing Belt I (73) with right belt wheel II (74).