CN105448464A

CN105448464A - Magnetizing clamping conveying lifting mechanism for high-power permanent magnet rear earth motor

Info

Publication number: CN105448464A
Application number: CN201610053963.7A
Authority: CN
Inventors: 卢丽娟; 张新华; 鲁志康; 何绍木; 尹黎明; 张苏敏
Original assignee: University of Shaoxing
Current assignee: University of Shaoxing
Priority date: 2016-01-27
Filing date: 2016-01-27
Publication date: 2016-03-30
Anticipated expiration: 2036-01-27
Also published as: CN105448464B

Abstract

The invention discloses a magnetizing clamping conveying lifting mechanism for a high-power permanent magnet rear earth motor. The magnetizing clamping conveying lifting mechanism comprises a machine frame. A connecting block is fixedly arranged on the side wall of the side portion of a top plate of the machine frame. A vertical supporting column is fixedly arranged on the top face of the connecting block. The top of the vertical supporting column is fixed to an upper plate body. The two sides of the upper plate body are fixedly provided with two driving motors. Output shafts of the driving motors penetrate through the upper plate body downwards and are connected with rotating screw rods through couplers. A pushing air cylinder is fixedly arranged on a bottom plate of the middle of the top plate. A push rod of the pushing air cylinder vertically penetrates out of the top plate upwards and is fixedly provided with a supporting disc. The front portion and the rear portion of the top plate are each fixedly provided with two conveying connecting plates. Conveying motors are fixedly arranged on the corresponding conveying connecting plates on the top plate. Output shafts of the conveying motors are spline shafts. It can be ensured that rotors will not make contact with a magnetizing coil, normal magnetizing is ensured, the rotors can be automatically conveyed onto the supporting disc, labor force of workers can be greatly reduced, and the installation efficiency and safety are improved.

Description

A kind of high-power permanent magnet rare-earth electric motor clamping conveying hoisting mechanism of magnetizing

Technical field:

The present invention relates to magnetizing equipment technical field, relate to a kind of high-power permanent magnet rare-earth electric motor clamping conveying hoisting mechanism of magnetizing in particular.

Background technology:

In order to reach the desirable effect that magnetizes, gap length when magnetizing between rotor and magnetizing coil iron core is very crucial.Because the size of rare-earth permanent magnet rotor is large, longer distance is had from turntable position to the position of magnetizing coil, add again and require that the fit clearance of rotor diameter and magnetizing coil iron core endoporus is little when magnetizing, directly rotor is pulled out in magnetizing coil, the surface of rotor and the surface of magnetizing coil can scratch.So just greatly have impact on the useful life of rotor, also have impact on the useful life of magnetizing equipment simultaneously.

And in existing magnetizing equipment, it is generally that artificial loading is installed that its rotor magnetizes, which increase the artificial amount of labour, and easily make when material loading hand or rotor and adjacent component produce to collide with, make hand injured or make rotor injured, impact uses, and has potential safety hazard.

Summary of the invention:

The object of the invention is to overcome the deficiencies in the prior art, a kind of high-power permanent magnet rare-earth electric motor clamping conveying hoisting mechanism of magnetizing is provided, it can ensure that rotor can not contact with magnetizing coil, ensures that it normally magnetizes, and improves the useful life of equipment and the normal use of rotor; And rotor can be transported on supporting disk by automatically, and it reduces manual labor amount greatly, improve installation effectiveness and fail safe, and ensure that rotor can not be impaired, ensure its useful life.

The scheme that the present invention solve the technical problem is:

A kind of high-power permanent magnet rare-earth electric motor clamping conveying hoisting mechanism of magnetizing, comprise frame, the edge sidewall of the top board of described frame is fixed with contiguous block, the end face of contiguous block is fixed with vertical support column, the top of vertical support column is fixed on upper plate body, the both sides of upper plate body are fixed with two drive motors, the output shaft of drive motors is passed down through upper plate body and is connected with rotating screw bolt by shaft coupling, the lower end of rotating screw bolt is hinged on top board, supporting bracket to be between top board and upper plate body and to be screwed onto on rotating screw bolt, the end face of supporting bracket is fixed with magnetizing coil, the central through hole of magnetizing coil is corresponding up and down with the centre of support through hole that the middle part of supporting bracket has, motor rack is fixed with in the middle part of the end face of upper plate body, motor rack is fixed with clamping motor, the output shaft of clamping motor is passed down through the center connecting through hole of motor rack and upper plate body and is bolted with nonmetal clamping cylinder, the upper end sleeve of nonmetal clamping cylinder is in the connecting through hole of center, the madial wall of center connecting through hole is fixed with stop collar, the madial wall of stop collar have at least two spacing block sets, the lateral wall of nonmetal clamping cylinder has multiple vertical stopper slot, nonmetal clamping cylinder sleeve is in stop collar, spacing block set sleeve is in the vertical stopper slot of correspondence, the centre of support through hole that the lower end of nonmetal clamping cylinder has through the central through hole of magnetizing coil and the middle part of supporting bracket,

The middle part base plate of described top board is fixed with promotion cylinder, the push rod promoting cylinder passes top board straight up and is fixed with supporting disk, the front and rear of top board is all fixed with two conveying connecting plates, the two ends of conveying screw rod are hinged on two conveying connecting plates corresponding to the front and rear of top board, the two ends of conveying guide post are fixed on two conveying connecting plates corresponding to the front and rear of top board, transfer block to be screwed onto on corresponding conveying screw rod and sleeve on the conveying guide post of correspondence, the top of transfer block is fixed with crawl motor, the top capturing the output shaft of motor has screw, adjusting rod is screwed onto in screw, the both sides, end of adjusting rod are fixed with location-plate, location-plate is fixed with the location body of rod, transfer block is fixed with positioning sleeve, location body of rod sleeve is in positioning sleeve, the end winding support of adjusting rod has grip block, there is in the middle part of the end face of supporting disk the middle part lug boss upwards extended, in the locating groove that the middle part that the bottom of the rotating shaft of rotor is nested in middle part lug boss has, the bottom face of rotor is pressed against the end face of middle part lug boss, the upper end of the rotating shaft of rotor is nested in the upper groove had in the middle part of the lower surface of nonmetal clamping cylinder, the upper surface of the rotating shaft of rotor is pressed against on the upper wall surface of upper groove, and two grip blocks are in the both sides of rotor,

The conveying connecting plate of the correspondence on described top board is fixed with conveying motor, and the output shaft of conveying motor is splined shaft, in the splined hole that splined shaft sleeve has in the end of the conveying screw rod of correspondence.

Described top board has multiple vertical jack, guide post sleeve is in vertical jack, and the upper end of guide post is fixed on the bottom surface of supporting disk, and the bottom surface of top board is fixed with multiple fairlead, and guide post sleeve is in fairlead.

The middle part of described top board has detent, and the bottom surface, middle part of supporting disk has the lower convex portion to downward-extension, and lower convex portion is facing to detent.

The left and right sides in the middle part of the end face of the top board of described frame is fixed with rotating screw bolt contiguous block, rotating screw bolt contiguous block be fixed with proximity switch and be hinged with rotating screw bolt, straight up and corresponding with the sensor block that the sidewall of transfer block is fixed with, two transfer block are between two rotating screw bolts the inductive head of proximity switch.

The end face at the rear portion of the top board of described frame is fixed with two charging limit switches, the induction end of charging limit switch is corresponding with the sensor block that the sidewall of transfer block is fixed with.

Described grip block is arc block, and grip block has to the close radial extension edge of rotor facing to the bottom of the curved wall of rotor, and grip block is fixed with cushion facing on the curved wall of rotor.

Outstanding effect of the present invention is:

Compared with prior art, it can ensure that rotor can not contact with magnetizing coil, ensures that it normally magnetizes, and improves the useful life of equipment and the normal use of rotor; And rotor can be transported on supporting disk by automatically, and it reduces manual labor amount greatly, improve installation effectiveness and fail safe, and ensure that rotor can not be impaired, ensure its useful life.

Accompanying drawing illustrates:

Fig. 1 is structural representation of the present invention;

Fig. 2 is the partial structurtes schematic diagram between nonmetal clamping cylinder of the present invention and stop collar;

Fig. 3 is the partial top view at top board place of the present invention;

Fig. 4 is the partial enlarged drawing of Fig. 3.

Embodiment:

Embodiment, see as shown in Figures 1 to 4, a kind of high-power permanent magnet rare-earth electric motor clamping conveying hoisting mechanism of magnetizing, comprise frame 10, the edge sidewall of the top board 11 of described frame 10 is fixed with contiguous block 12, the end face of contiguous block 12 is fixed with vertical support column 13), the top of vertical support column 13 is fixed on upper plate body 20, the both sides of upper plate body 20 are fixed with two drive motors 21, the output shaft of drive motors 21 is passed down through upper plate body 20 and is connected with rotating screw bolt 22 by shaft coupling, the lower end of rotating screw bolt 22 is hinged on top board 11, supporting bracket 30 to be between top board 11 and upper plate body 20 and to be screwed onto on rotating screw bolt 22, the end face of supporting bracket 30 is fixed with magnetizing coil 40, the central through hole of magnetizing coil 40 is corresponding with the centre of support through hole about 31 that the middle part of supporting bracket 30 has, motor rack 23 is fixed with in the middle part of the end face of upper plate body 20, motor rack 23 is fixed with clamping motor 24, the output shaft of clamping motor 24 is passed down through the center connecting through hole 25 of motor rack 10 and upper plate body 20 and is bolted with nonmetal clamping cylinder 26, the upper end sleeve of nonmetal clamping cylinder 26 is in center connecting through hole 25, the madial wall of center connecting through hole 25 is fixed with stop collar 27, the madial wall of stop collar 27 have at least two spacing block sets 271, the lateral wall of nonmetal clamping cylinder 26 has multiple vertical stopper slot 261, nonmetal clamping cylinder 26 sleeve is in stop collar 27, spacing block set 271 sleeve is in the vertical stopper slot 261 of correspondence, the centre of support through hole 31 that the lower end of nonmetal clamping cylinder 26 has through the central through hole of magnetizing coil 40 and the middle part of supporting bracket 30,

The middle part base plate of described top board 11 is fixed with and promotes cylinder 14, the push rod promoting cylinder 14 passes top board 11 straight up and is fixed with supporting disk 60, the front and rear of top board 11 is all fixed with two conveying connecting plates 80, the two ends of conveying screw rod 81 are hinged on two conveying connecting plates 80 corresponding to the front and rear of top board 11, the two ends of conveying guide post 82 are fixed on two conveying connecting plates 80 corresponding to the front and rear of top board 11, transfer block 83 to be screwed onto on corresponding conveying screw rod 81 and sleeve on the conveying guide post 82 of correspondence, the top of transfer block 83 is fixed with and captures motor 84, the top capturing the output shaft of motor 84 has screw, adjusting rod 85 is screwed onto in screw, the both sides, end of adjusting rod 85 are fixed with location-plate 86, location-plate 86 is fixed with the location body of rod 87, transfer block 83 is fixed with positioning sleeve 88, the location body of rod 87 sleeve is in positioning sleeve 88, the end winding support of adjusting rod 85 has grip block 89, there is in the middle part of the end face of supporting disk 60 the middle part lug boss 61 upwards extended, in the locating groove 62 that the middle part that the bottom of the rotating shaft of rotor 70 is nested in middle part lug boss 61 has, the bottom face of rotor 70 is pressed against the end face of middle part lug boss 61, the upper end of the rotating shaft of rotor 70 is nested in the upper groove 261 had in the middle part of the lower surface of nonmetal clamping cylinder 26, the upper surface of the rotating shaft of rotor 70 is pressed against on the upper wall surface of upper groove 261, and two grip blocks 89 are in the both sides of rotor 70,

The conveying connecting plate 80 of the correspondence on described top board 11 is fixed with conveying motor 90, the output shaft of conveying motor 90 is splined shaft, in the splined hole that splined shaft sleeve has in the end of the conveying screw rod 81 of correspondence.

Further, described top board 11 has multiple vertical jack 15, and guide post 16 sleeve is in vertical jack 15, and the upper end of guide post 16 is fixed on the bottom surface of supporting disk 60, the bottom surface of top board 11 is fixed with multiple fairlead 17, and guide post 16 sleeve is in fairlead 17.

Further, the middle part of described top board 11 has detent 18, and the bottom surface, middle part of supporting disk 60 has the lower convex portion 63 to downward-extension, and lower convex portion 63 is facing to detent 18.

Further, the left and right sides in the middle part of the end face of the top board 11 of described frame 10 is fixed with rotating screw bolt contiguous block 19, rotating screw bolt contiguous block 19 be fixed with proximity switch 1 and be hinged with rotating screw bolt 22, straight up and corresponding with the sensor block 831 that the sidewall of transfer block 83 is fixed with, two transfer block 83 are between two rotating screw bolts 22 inductive head of proximity switch 1.

Further, the end face at the rear portion of the top board 11 of described frame 10 is fixed with two charging limit switches 2, the induction end of charging limit switch 2 is corresponding with the sensor block 831 that the sidewall of transfer block 83 is fixed with.

Further, described grip block 89 is arc block, and grip block 89 has to the close radial extension edge 891 of rotor 70 facing to the bottom of the curved wall of rotor 70, and grip block 89 is fixed with cushion 892 facing on the curved wall of rotor 70.

Operation principle: first two transfer block 83 are in the rear portion of top board 11, the induction end of two charging limit switches 2 is corresponding with the sensor block 831 that the sidewall of transfer block 83 is fixed with, then, rotor 70 is placed between two grip blocks 89, by two grip blocks 39, rotor 70 is clamped, and the lower surface of rotor 70 is pressed against on radial extension edge 891, then, conveying motor 90 runs, conveying screw rod 81 is rotated, thus transfer block 83 is moved to supporting disk 60, when sensor block 831 is facing to proximity switch 1, induced signal is flowed to main control system by proximity switch 1, it is out of service that main control system just controls conveying motor 90, now, rotor 70 is in above the middle part of supporting disk 60, then, the push rod promoting cylinder 14 promotes, supporting disk 60 is promoted, thus make the bottom of the rotating shaft of rotor 70 to be magnetized be nested in the locating groove 62 that has of middle part of middle part lug boss 61, then, capture motor 84 to rotate, make grip block 89 away from rotor 70, thus unclamp rotor 70, then, promote the push rod of cylinder 14 upwardly, rotor 70 is made upwards to promote certain distance, then, the output shaft rotation of clamping motor 24, nonmetal clamping cylinder 26 is moved down, thus make the upper end of the rotating shaft of rotor 70 be nested in the upper groove 261 had in the middle part of the lower surface of nonmetal clamping cylinder 26, the upper surface of the rotating shaft of rotor 70 is pressed against on the upper wall surface of upper groove 261, thus rotor 70 is gripped, then, rotated by the output shaft of two drive motors 21 simultaneously, thus supporting bracket 30 is moved up and down, thus by rotor 70 sleeve in the central through hole of magnetizing coil 40, realization is magnetized, complete after magnetizing, the output shaft rotation of two drive motors 21, thus supporting bracket 30 is moved up and down, thus rotor 70 is shifted out from magnetizing coil 40, rotor 70 can not be touched with magnetizing coil 40 phase, thus ensure its quality, it can not be made impaired.

Then, the output shaft rotation of clamping motor 24, nonmetal clamping cylinder 26 is moved up, thus the upper end of the rotating shaft of rotor 70 is separated with nonmetal clamping cylinder 26, capture motor 84 to rotate, grip block 89 is made to be pressed against on rotor 70, thus make rotor 70 be clamped on two grip blocks 89, then, the push rod promoting cylinder 14 declines, the bottom of the rotating shaft of rotor 70 is separated with supporting disk 60, run by conveying motor 70, complaint screw rod 81 is rotated, two transfer block 83 can be moved backward, thus the rotor 70 magnetized is shifted out, very convenient.

Finally; above execution mode is only for illustration of the present invention; and be not limitation of the present invention; the those of ordinary skill of relevant technical field; without departing from the spirit and scope of the present invention; can also make a variety of changes and modification, therefore all equivalent technical schemes also belong to category of the present invention, and scope of patent protection of the present invention should be defined by the claims.

Claims

1. a high-power permanent magnet rare-earth electric motor clamping conveying hoisting mechanism of magnetizing, comprise frame (10), it is characterized in that: the edge sidewall of the top board (11) of described frame (10) is fixed with contiguous block (12), the end face of contiguous block (12) is fixed with vertical support column (13), the top of vertical support column (13) is fixed on upper plate body (20), the both sides of upper plate body (20) are fixed with two drive motors (21), the output shaft of drive motors (21) is passed down through upper plate body (20) and is connected with rotating screw bolt (22) by shaft coupling, the lower end of rotating screw bolt (22) is hinged on top board (11), supporting bracket (30) to be between top board (11) and upper plate body (20) and to be screwed onto on rotating screw bolt (22), the end face of supporting bracket (30) is fixed with magnetizing coil (40), the centre of support through hole (31) that central through hole and the middle part of supporting bracket (30) of magnetizing coil (40) have is corresponding up and down, motor rack (23) is fixed with in the middle part of the end face of upper plate body (20), motor rack (23) is fixed with clamping motor (24), the output shaft of clamping motor (24) is passed down through the center connecting through hole (25) of motor rack (10) and upper plate body (20) and is bolted with nonmetal clamping cylinder (26), the upper end sleeve of nonmetal clamping cylinder (26) is in center connecting through hole (25), the madial wall of center connecting through hole (25) is fixed with stop collar (27), the madial wall of stop collar (27) have at least two spacing block sets (271), the lateral wall of nonmetal clamping cylinder (26) has multiple vertical stopper slot (261), nonmetal clamping cylinder (26) sleeve is in stop collar (27), spacing block set (271) sleeve is in the vertical stopper slot (261) of correspondence, the centre of support through hole (31) that the lower end of nonmetal clamping cylinder (26) has through the central through hole of magnetizing coil (40) and the middle part of supporting bracket (30),

The middle part base plate of described top board (11) is fixed with and promotes cylinder (14), the push rod promoting cylinder (14) passes top board (11) straight up and is fixed with supporting disk (60), the front and rear of top board (11) is all fixed with two conveyings connecting plate (80), the two ends of conveying screw rod (81) are hinged on two conveyings connecting plate (80) corresponding to the front and rear of top board (11), the two ends of conveying guide post (82) are fixed on two conveyings connecting plate (80) corresponding to the front and rear of top board (11), transfer block (83) is screwed onto the upper also sleeve of corresponding conveying screw rod (81) on the conveying guide post (82) of correspondence, the top of transfer block (83) is fixed with and captures motor (84), the top capturing the output shaft of motor (84) has screw, adjusting rod (85) is screwed onto in screw, the both sides, end of adjusting rod (85) are fixed with location-plate (86), location-plate (86) is fixed with the location body of rod (87), transfer block (83) is fixed with positioning sleeve (88), the location body of rod (87) sleeve is in positioning sleeve (88), the end winding support of adjusting rod (85) has grip block (89), there is in the middle part of the end face of supporting disk (60) the middle part lug boss (61) upwards extended, in the locating groove (62) that the middle part that the bottom of the rotating shaft of rotor (70) is nested in middle part lug boss (61) has, the bottom face of rotor (70) is pressed against the end face at middle part lug boss (61), the upper end of the rotating shaft of rotor (70) is nested in the upper groove (261) had in the middle part of the lower surface of nonmetal clamping cylinder (26), the upper surface of the rotating shaft of rotor (70) is pressed against on the upper wall surface of upper groove (261), two grip blocks (89) are in the both sides of rotor (70),

The conveying connecting plate (80) of the correspondence on described top board (11) is fixed with conveying motor (90), the output shaft of conveying motor (90) is splined shaft, in the splined hole that splined shaft sleeve has in the end of the conveying screw rod (81) of correspondence.

2. a kind of high-power permanent magnet rare-earth electric motor according to claim 1 clamping conveying hoisting mechanism of magnetizing, it is characterized in that: described top board (11) has multiple vertical jack (15), guide post (16) sleeve is in vertical jack (15), the upper end of guide post (16) is fixed on the bottom surface of supporting disk (60), the bottom surface of top board (11) is fixed with multiple fairlead (17), and guide post (16) sleeve is in fairlead (17).

3. a kind of high-power permanent magnet rare-earth electric motor according to claim 1 clamping conveying hoisting mechanism of magnetizing, it is characterized in that: the middle part of described top board (11) has detent (18), the bottom surface, middle part of supporting disk (60) has the lower convex portion (63) to downward-extension, and lower convex portion (63) is facing to detent (18).

4. a kind of high-power permanent magnet rare-earth electric motor gripping conveyor structure that magnetizes according to claim 1, it is characterized in that: the left and right sides in the middle part of the end face of the top board (11) of described frame (10) is fixed with rotating screw bolt contiguous block (19), rotating screw bolt contiguous block (19) be fixed with proximity switch (1) and be hinged with rotating screw bolt (22), the inductive head of proximity switch (1) straight up and corresponding with the sensor block (831) that the sidewall of transfer block (83) is fixed with, two transfer block (83) are between two rotating screw bolts (22).

5. a kind of high-power permanent magnet rare-earth electric motor gripping conveyor structure that magnetizes according to claim 4, it is characterized in that: the end face at the rear portion of the top board (11) of described frame (10) is fixed with two charging limit switches (2), the induction end of charging limit switch (2) is corresponding with the sensor block (831) that the sidewall of transfer block (83) is fixed with.

6. a kind of high-power permanent magnet rare-earth electric motor gripping conveyor structure that magnetizes according to claim 5, it is characterized in that: described grip block (89) is arc block, grip block (89) has to the close radial extension edge (891) of rotor (70) facing to the bottom of the curved wall of rotor (70), and the curved wall of grip block (89) facing to rotor (70) is fixed with cushion (892).