CN220296899U - Brushless motor rotor adds clamping apparatus - Google Patents

Abstract

The utility model discloses a brushless motor rotor machining clamp which comprises a fixed bottom plate, universal wheels, side baffles, armrests, a first moving device, a second moving device, a first fixing device and a second fixing device, wherein the fixed bottom plate is fixedly connected with the fixed bottom plate; the universal wheel is located the bottom of PMKD, the side shield is located the top of PMKD, the handrail is located one side of side shield, mobile device one is located the top of PMKD, mobile device two is located one side of mobile device one, fixed device one is located the top of mobile device two, fixed device two is located one side of side shield. Compared with the prior art, the utility model has the advantages that: the utility model can lead the fixed rotor to move in all directions on the horizontal plane aiming at different processing devices, is convenient to carry, and can fix the rotors with various lengths.

Description

Brushless motor rotor adds clamping apparatus

Technical Field

The utility model belongs to the technical field of motors, and particularly relates to a clamp for machining a motor rotor.

Background

The motor rotor excircle is clamped by using a three-jaw self-centering chuck in batch processing, the three-jaw self-centering chuck can guarantee the precision requirement to a certain extent, but the clamping time is too slow, and the installation error of the rotation run-out value is huge by using a dial indicator after each clamping is completed. The spring chuck of higher precision also has the installation error, and the error of beating of lathe itself in addition, so adopt current processing mode to have the centre gripping fixed unstable, and the operation wastes time and energy, during the processing, because the uneven frequent displacement of atress leads to the quality seriously to reduce, can not satisfy the user demand well, can not reach the standard of beating.

The utility model discloses a fixation clamp is used in motor rotor processing of antiskid among the prior art for patent number CN217935389U, including the equipment main part, the equipment main part includes: the motor rotor fixing device comprises fixing pieces used for fixing a motor rotor, wherein three groups of fixing pieces, a feeding frame used for clamping the motor rotor into the three groups of fixing pieces and a mounting seat used for mounting the fixing pieces and the feeding frame are uniformly arranged along the circumference of the fixing pieces; during the use, the user utilizes the pay-off frame to push the inboard of three group's mounting with motor rotor, and fixed rib and motor rotor's outside contact, is pressed the back and moves to the outside, and the spring is compressed, and the slide bar slides to the outside along the slide hole, receives the elastic force effect of spring, and fixed rib compresses tightly motor rotor's outside and realizes fixedly, prevents that it from sliding along its circumferencial direction in the course of working, can effectively improve motor rotor's processing effect, reinforcing device's practicality.

However, the prior art patents suffer from several drawbacks:

(1) The anti-slip fixing clamp for machining the motor rotor is not provided with a device capable of moving the rotor on a horizontal plane, so that the anti-slip fixing clamp for machining the motor rotor can only rotate for machining the rotor, and cannot enable the clamp to move differently according to different machining tools and cannot keep a clamped fixing state during movement.

(2) The anti-slip fixing clamp for machining the motor rotor is not provided with a mobile device convenient to carry, and is heavy, very troublesome to carry and inconvenient.

(3) The anti-slip fixing clamp for machining the motor rotor is not provided with a moving device capable of adjusting the position of the clamp according to the length of the rotor, so that the anti-slip fixing clamp for machining the motor rotor can only fix part of the rotor, and the length of the fixable rotor is small.

Disclosure of Invention

The utility model aims to overcome the technical defects, and provides the clamp for processing the motor rotor, which enables the fixed rotor to move in all directions on the horizontal plane, is convenient to carry and can fix rotors with various lengths.

In order to solve the problems, the technical scheme of the utility model is as follows: a brushless motor rotor machining clamp comprises a fixed bottom plate, universal wheels, side baffles, armrests, a first moving device, a second moving device, a first fixing device and a second fixing device; the universal wheel is located the bottom of PMKD, the side shield is located the top of PMKD, the handrail is located one side of side shield, mobile device one is located the top of PMKD, mobile device two is located one side of mobile device one, fixed device one is located the top of mobile device two, fixed device two is located one side of side shield.

Further, the bottom of fixed bottom plate is equipped with the fixed column, the bottom of fixed column is equipped with the rotor plate, fixed column and rotor plate swivelling joint, the both ends of rotor plate are equipped with fixed axle one, the one end of fixed axle one is equipped with gyro wheel one, fixed axle one and gyro wheel one swivelling joint.

Further, the top of PMKD is equipped with the motor, the one end of motor is equipped with the rotation axis, the one end of rotation axis is equipped with the screw thread axle, the one end of screw thread axle is equipped with the fixed station, screw thread axle and fixed station swivelling joint, the outside of screw thread axle is equipped with the movable table, movable table and screw thread axle threaded connection.

Further, the top of fixed bottom plate is equipped with the slide rail, be equipped with T type spout in the slide rail, be equipped with T type slider in the T type spout, T type slider and T type spout sliding connection.

Further, one side of mobile station is equipped with fixed plate one, the opposite side of mobile station is equipped with fixed plate two, be equipped with bolt one between fixed plate one and the fixed plate two, bolt one and fixed plate two swivelling joint, the top of mobile station is equipped with spout one, two of spout one are surveyed and are equipped with spout two, be equipped with the slider in spout one and the spout two, the bottom of slider is equipped with the screw thread groove, slider and bolt one threaded connection.

Further, the top of slider is equipped with base one, the top of base one is equipped with the traveller one, the top of traveller one is equipped with limiting plate one, the top of base one is equipped with bolt two, bolt two and base one swivelling joint, the top of base one is equipped with lifter plate one, lifter plate one and bolt two threaded connection, the top of base one is equipped with arc wall one, the top of lifter plate one is equipped with arc wall two.

Further, fixed bottom plate's top is equipped with fixed station two, fixed station two's bottom is equipped with the recess, be equipped with the sliding block in the recess, the top of sliding block is equipped with base two, base two's both sides are equipped with fixed axle two, fixed axle two's one end is equipped with gyro wheel two, gyro wheel two and fixed axle two swivelling joint.

Further, the top of base two is equipped with the traveller two, the top of traveller two is equipped with limiting plate two, the top of base two is equipped with the bolt three, bolt three and base two swivelling joint, the top of base two is equipped with lifter plate two, lifter plate two and three threaded connection of bolt.

Compared with the prior art, the utility model has the advantages that:

(1) According to the brushless motor rotor machining clamp, the fixed rotor can move in all directions on the horizontal plane according to the position of the machining device under the condition that the fixed rotor is kept fixed through the second moving device, and machining is convenient.

(2) According to the utility model, the universal wheel moving device is arranged at the bottom end of the brushless motor rotor machining clamp, so that the heavy brushless motor rotor machining clamp can flexibly move, and the brushless motor rotor machining clamp is more convenient and labor-saving to transport and carry.

(3) The brushless motor rotor machining clamp is provided with the first moving device, and the distance between the first fixing device and the second fixing device can be adjusted through the first moving device, so that the brushless motor rotor machining clamp can fix rotors with various lengths.

Drawings

Fig. 1 is a first structural view of a brushless motor rotor machining jig according to the present utility model.

Fig. 2 is a second structural diagram of a brushless motor rotor machining jig according to the present utility model.

Fig. 3 is a structural diagram of a brushless motor rotor machining jig according to the present utility model.

Fig. 4 is a block diagram of a slide rail of a processing clamp for a brushless motor rotor according to the present utility model.

Fig. 5 is a structural diagram of a brushless motor rotor machining jig according to the present utility model.

As shown in the figure: 1. a fixed bottom plate; 2. a universal wheel; 3. side baffles; 4. an armrest; 5. a first mobile device; 6. a second mobile device; 7. a first fixing device; 8. a second fixing device; 9. fixing the column; 10. a rotating plate; 11. a first fixed shaft; 12. a roller I; 13. a motor; 14. a rotation shaft; 15. a threaded shaft; 16. a fixed table; 17. a mobile station; 18. a slide rail; 19. a T-shaped chute; 20. a T-shaped slider; 21. a first fixing plate; 22. a second fixing plate; 23. a first bolt; 24. a first chute; 25. a second chute; 26. a slide block; 27. a thread groove; 28. a first base; 29. a first sliding column; 30. a second bolt; 31. a first limiting plate; 32. lifting plate I; 33. an arc-shaped groove I; 34. an arc-shaped groove II; 35. a second fixed table; 36. a groove; 37. a sliding block; 38. a second base; 39. a second fixed shaft; 40. a second roller; 41. a second sliding column; 42. a third bolt; 43. a limiting plate II; 44. and a lifting plate II.

Detailed Description

Specific embodiments of the present utility model will be further described below with reference to the accompanying drawings. Wherein like parts are designated by like reference numerals.

It should be noted that the words "front", "rear", "left", "right", "upper" and "lower" used in the following description refer to directions in the drawings, and the words "inner" and "outer" refer to directions toward or away from, respectively, the geometric center of a particular component.

In order to make the contents of the present utility model more clearly understood, the technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1 to 5, a brushless motor rotor machining fixture comprises a fixed bottom plate 1, universal wheels 2, side baffles 3, armrests 4, a first moving device 5, a second moving device 6, a first fixing device 7 and a second fixing device 8; the universal wheel 2 is located the bottom of fixed baseplate 1, and side shield 3 is located the top of fixed baseplate 1, and handrail 4 is located one side of side shield 3, and mobile device one 5 is located the top of fixed baseplate 1, and mobile device two 6 is located one side of mobile device one 5, and fixed device one 7 is located the top of mobile device two 6, and fixed device two 8 is located one side of side shield 3.

The top of the fixed bottom plate 1 is provided with a motor 13, one end of the motor 13 is provided with a rotating shaft 14, one end of the rotating shaft 14 is provided with a threaded shaft 15, one end of the threaded shaft 15 is provided with a fixed table 16, the threaded shaft 15 is in rotary connection with the fixed table 16, the outer side of the threaded shaft 15 is provided with a movable table 17, the movable table 17 is in threaded connection with the threaded shaft 15, the top of the second base 38 is provided with a second sliding column 41, the top of the second sliding column 41 is provided with a second limiting plate 43, the top of the second base 38 is provided with a third bolt 42, the third bolt 42 is in rotary connection with the second base 38, the upper side of the second base 38 is provided with a second lifting plate 44, the second lifting plate 44 is in threaded connection with the third bolt 42, the top of the fixed bottom plate 1 is provided with a sliding rail 18, a T-shaped sliding groove 19 is arranged in the sliding rail 18, a T-shaped sliding groove 20 is arranged in the T-shaped sliding groove 19, the bottom of the fixed bottom plate 1 is provided with a fixed column 9, the fixed column 9 is in the bottom of the fixed bottom plate 9 is in rotary plate 10, the fixed column 9 is in rotary connection with the rotary plate 10, the two ends of the rotary plate 10 are provided with a fixed shaft 11, one end of the fixed shaft 11 is in the rotary plate 11 is in rotary connection with the first fixed, one end is in the rotary plate is in the rotary connection with the rotary plate 12 is in the rotary connection with the rotary one 12.

The top end of the fixed bottom plate 1 is provided with a fixed table II 35, the bottom end of the fixed table II 35 is provided with a groove 36, a sliding block 37 is arranged in the groove 36, the top end of the sliding block 37 is provided with a base II 38, two sides of the base II 38 are provided with a fixed shaft II 39, one end of the fixed shaft II 39 is provided with a roller II 40, the roller II 40 is rotationally connected with the fixed shaft II 39, one side of the movable table 17 is provided with a fixed plate I21, the other side of the movable table 17 is provided with a fixed plate II 22, a bolt I23 is arranged between the fixed plate I21 and the fixed plate II 22, the bolt I23 is rotationally connected with the fixed plate II 22, the top end of the movable table 17 is provided with a chute I24, two sides of the first sliding groove 24 are respectively provided with a second sliding groove 25, sliding blocks 26 are arranged in the first sliding groove 24 and the second sliding groove 25, the bottom ends of the sliding blocks 26 are respectively provided with a thread groove 27, the sliding blocks 26 are in threaded connection with the first bolt 23, the top ends of the sliding blocks 26 are respectively provided with a first base 28, the top ends of the first base 28 are respectively provided with a first sliding column 29, the top ends of the first sliding columns 29 are respectively provided with a first limiting plate 31, the top ends of the first base 28 are respectively provided with a second bolt 30, the second bolts 30 are rotatably connected with the first base 28, a first lifting plate 32 is arranged above the first base 28, the first lifting plate 32 is in threaded connection with the second bolts 30, the top ends of the first base 28 are respectively provided with an arc groove 33, and the top ends of the first lifting plate 32 are respectively provided with an arc groove 34.

In a specific use, the motor 13 is started to enable the threaded shaft 15 to rotationally drive the mobile station to move, after the mobile station is adjusted to a proper position of the rotor, the motor 13 is stopped, the second bolt 30 and the third bolt 42 are rotated to enable the first lifting plate 32 and the second lifting plate 44 to ascend, the rotor is placed on the first arc-shaped groove 33 of the first base 28 and the second arc-shaped groove 33 of the second base 38, the second bolt 30 and the third bolt 42 are rotated to enable the first lifting plate 32 and the second lifting plate 44 to descend, and the second arc-shaped groove 34 is enabled to clamp the rotor.

The first rotary bolt 23 drives the slide block 26 to slide, so that the first base 28 moves, and the fixed rotor drives the second base 38 to move, so that the rotor moves to the lower part of the processing device.

The utility model and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the utility model as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present utility model.

Claims (8)

1. A brushless motor rotor adds clamping apparatus which characterized in that: comprises a fixed bottom plate (1), universal wheels (2), side baffles (3), armrests (4), a first moving device (5), a second moving device (6), a first fixing device (7) and a second fixing device (8);

the universal wheel (2) is located the bottom of PMKD (1), side shield (3) are located the top of PMKD (1), handrail (4) are located one side of side shield (3), mobile device one (5) are located the top of PMKD (1), mobile device two (6) are located one side of mobile device one (5), fixing device one (7) are located the top of mobile device two (6), fixing device two (8) are located one side of side shield (3).

2. A brushless motor rotor machining fixture as claimed in claim 1, wherein: the bottom of fixed bottom plate (1) is equipped with fixed column (9), the bottom of fixed column (9) is equipped with rotor plate (10), fixed column (9) and rotor plate (10) swivelling joint, the both ends of rotor plate (10) are equipped with fixed axle one (11), the one end of fixed axle one (11) is equipped with gyro wheel one (12), fixed axle one (11) and gyro wheel one (12) swivelling joint.

3. A brushless motor rotor machining fixture as claimed in claim 1, wherein: the top of fixed bottom plate (1) is equipped with motor (13), the one end of motor (13) is equipped with rotation axis (14), the one end of rotation axis (14) is equipped with screw thread axle (15), the one end of screw thread axle (15) is equipped with fixed station (16), screw thread axle (15) and fixed station (16) swivelling joint, the outside of screw thread axle (15) is equipped with movable table (17), movable table (17) and screw thread axle (15) threaded connection.

4. A brushless motor rotor machining fixture as claimed in claim 1, wherein: the top of fixed bottom plate (1) is equipped with slide rail (18), be equipped with T type spout (19) in slide rail (18), be equipped with T type slider (20) in T type spout (19), T type slider (20) and T type spout (19) sliding connection.

5. A brushless motor rotor machining fixture as claimed in claim 3, wherein: one side of mobile station (17) is equipped with fixed plate one (21), the opposite side of mobile station (17) is equipped with fixed plate two (22), be equipped with bolt one (23) between fixed plate one (21) and the fixed plate two (22), bolt one (23) and fixed plate two (22) swivelling joint, the top of mobile station (17) is equipped with spout one (24), two of spout one (24) are surveyed and are equipped with spout two (25), be equipped with slider (26) in spout one (24) and spout two (25), the bottom of slider (26) is equipped with screw thread groove (27), slider (26) and bolt one (23) threaded connection.

6. A brushless motor rotor machining fixture as claimed in claim 5, wherein: the top of slider (26) is equipped with base one (28), the top of base one (28) is equipped with traveller one (29), the top of traveller one (29) is equipped with limiting plate one (31), the top of base one (28) is equipped with bolt two (30), bolt two (30) and base one (28) swivelling joint, the top of base one (28) is equipped with lifter plate one (32), lifter plate one (32) and bolt two (30) threaded connection, the top of base one (28) is equipped with arc wall one (33), the top of lifter plate one (32) is equipped with arc wall two (34).

7. A brushless motor rotor machining fixture as claimed in claim 1, wherein: the top of fixed bottom plate (1) is equipped with fixed station two (35), the bottom of fixed station two (35) is equipped with recess (36), be equipped with slider (37) in recess (36), the top of slider (37) is equipped with base two (38), the both sides of base two (38) are equipped with fixed axle two (39), the one end of fixed axle two (39) is equipped with gyro wheel two (40), gyro wheel two (40) and fixed axle two (39) swivelling joint.

8. A brushless motor rotor machining fixture as claimed in claim 7, wherein: the top of base two (38) is equipped with traveller two (41), the top of traveller two (41) is equipped with limiting plate two (43), the top of base two (38) is equipped with bolt three (42), bolt three (42) and base two (38) swivelling joint, the top of base two (38) is equipped with lifter plate two (44), lifter plate two (44) and bolt three (42) threaded connection.