CN112564438A - A swift spooling equipment for rotor production - Google Patents

Abstract

The invention relates to the technical field of machining equipment, in particular to quick winding equipment for rotor production, which comprises a base, a clamping mechanism and a rotating mechanism, wherein a crescent vertical plate is vertically and fixedly arranged at the upper end of the base, the clamping mechanism is arranged at the upper end of the base and is arranged beside the vertical plate, the rotating mechanism is arranged on the vertical plate and comprises a gear ring with an arc notch, a fixing piece with the arc notch, a material storage ring with the arc notch and a transmission assembly, the fixing piece is fixedly arranged on the vertical plate, the gear ring is rotatably arranged on the fixing piece, the material storage ring is rotatably arranged beside the gear ring through a plurality of supporting mechanisms, the gear ring is fixedly connected with the material storage ring through a rotating wheel, and the transmission assembly is rotatably arranged on the vertical plate. Degree of automation is higher, and this equipment has also reduced workman's the amount of labour simultaneously.

Description

A swift spooling equipment for rotor production

Technical Field

The invention relates to the technical field of machining equipment, in particular to quick winding equipment for rotor production.

Background

Coils generally refer to a winding of wire in the shape of a loop, the most common coil applications being: motors, inductors, transformers, loop antennas, and the like. The coil in the circuit is referred to as an inductor. The insulated pipe is characterized in that the wires are wound one by one and are insulated from each other, and the insulated pipe can be hollow and can also comprise an iron core or a magnetic powder core, which is called an inductor for short. The inductor can be divided into a fixed inductor and a variable inductor, and the fixed inductor coil is called an inductor or a coil for short.

The traditional manual winding cannot meet the existing market demands, the manual winding has the defects of low efficiency, unstable quality and the like, and the automation degree is not high enough, so that a quick winding device for rotor production needs to be designed.

Disclosure of Invention

The technical problem to be solved by the invention is to provide the quick winding equipment for rotor production, and the technical scheme solves the defects of low efficiency, unstable quality and the like of the traditional manual winding.

In order to solve the technical problems, the invention provides the following technical scheme:

the utility model provides a swift spooling equipment for rotor production, the on-line screen storage device comprises a base, clamping mechanism and slewing mechanism, the vertical fixed crescent riser that is provided with in upper end of base, clamping mechanism sets up the upper end at the base, and clamping mechanism sets up the side at the riser, slewing mechanism sets up on the riser, slewing mechanism is including the ring gear that has the arc breach, the mounting that has the arc breach, the storage circle and the drive assembly that have the arc breach, the mounting is fixed to be set up on the riser, the ring gear rotates and sets up on the mounting, the storage circle rotates the side that sets up at the ring gear through a plurality of supporting mechanism, and the ring gear passes through rotation wheel fixed connection with the storage circle, the drive assembly rotates and sets up on the riser.

As an optimal scheme of the quick winding equipment for rotor production, the transmission assembly comprises a first rotating motor, a first gear, a second gear, two third gears and two fourth gears, the first rotating motor is fixedly arranged at the upper end of the base, the first gear is fixedly arranged at the output end of the first rotating motor, the second gear, the two third gears and the two fourth gears are rotatably arranged on the same end face of the vertical plate, the second gear is in meshing transmission with the first gear and in meshing transmission with the gear ring, the two third gears are arranged at two ends of the second gear, the two third gears are in meshing transmission with the second gear respectively, the two fourth gears are arranged at the sides of the two third gears respectively, and the two fourth gears are in meshing transmission with the gear ring and the two third gears respectively.

As a preferred scheme of the quick winding device for rotor production, the clamping mechanism comprises a second rotating motor, three threaded rods, three moving blocks, a driving rotating assembly and two groups of driven rotating assemblies, the second rotating motor is vertically and fixedly arranged inside a base through a motor base, a transmission case is fixedly arranged at the right upper end of the motor base, three support plates are arranged at the upper end of the motor base along the circumferential direction of the transmission case at equal intervals, the three support plates are horizontally and fixedly arranged on the base, bearing seats are vertically and fixedly arranged at the ends of the three support plates far away from the transmission case, one ends of the three threaded rods are respectively and rotatably arranged on the bearing seats, the other ends of the three threaded rods are respectively arranged in the transmission case, a first bevel gear is fixedly connected at one end of each threaded rod close to the transmission case, a second bevel gear is fixedly connected at the output end of the second rotating, the second bevel gear is in meshed connection with the three first bevel gears, the bottoms of the three moving blocks are arranged on the three support plates in a sliding mode respectively, the three moving blocks are connected with the three threaded rods in a threaded mode respectively, and the driving rotating assembly and the two sets of driven rotating assemblies are arranged on the three moving blocks respectively.

As a preferred scheme of the quick winding device for rotor production, the driving rotating assembly comprises a third rotating motor, a motor frame and a first supporting block, guide rods are horizontally and fixedly arranged on three moving blocks along the length direction of the moving blocks, pressing springs are sleeved on the guide rods, the motor frame is vertically and slidably arranged on one of the guide rods, one of the pressing springs is tightly abutted against the bottom of the motor frame, the third rotating motor is vertically and fixedly arranged on the motor frame, a first supporting column is fixedly connected with the output end of the third rotating motor, the first supporting block is fixedly arranged at the upper end of the first supporting column through bolts, each driven rotating assembly comprises a sliding block, a second supporting column and a second supporting block, the two sliding blocks are respectively and vertically and slidably arranged on the two guide rods, the lower end of the second supporting column is rotatably arranged inside the sliding block through a bearing, the second supporting block is fixedly arranged at the upper end of the second support column through a bolt.

As an optimal scheme of the quick winding equipment for rotor production, the storage ring is further provided with a hinge assembly, the hinge assembly comprises an arc-shaped connecting piece and two connecting plates, two hinge joints are symmetrically arranged at two ends of the storage ring, one ends of the two connecting plates are respectively rotatably arranged on the two hinge joints, the other ends of the two connecting plates are respectively rotatably arranged at two sides of the arc-shaped connecting piece, and one end, far away from the two hinge joints, of the storage ring is provided with an arc plate used for compressing the arc-shaped connecting piece in a sliding mode.

As an optimal scheme of the quick winding equipment for rotor production, the supporting mechanism comprises four groups of supporting assemblies, the four groups of supporting assemblies are arranged at the upper end and the lower end of a vertical plate respectively, each group of supporting assemblies comprises a bolt and a first driven wheel, the bolt is fixedly arranged on the vertical plate through a bolt, the first driven wheel is rotatably arranged on the bolt through a nut, and the four first driven wheels are all abutted to the outer edge of the material storage ring.

As an optimal selection scheme of swift spooling equipment for rotor production, still fixed second that is provided with on the coil is followed driving wheel and fixed block, and the second all sets up between ring gear and storage ring from driving wheel and fixed block to the second sets up the side at the fixed block from the driving wheel, offers the through-hole that is used for the copper line to pass on the fixed block, and the second is provided with the recess that is used for avoiding the copper line to drop from driving wheel.

As an optimal scheme of a swift spooling equipment for rotor production, the top both ends of riser are the fixed horizontal pole that is provided with respectively, it is provided with the third from the driving wheel to rotate on riser neighbour clamping mechanism's the horizontal pole, the third is offered from the driving wheel and is used for avoiding the recess that the copper line drops, the fixed U type splint that are provided with on the other horizontal pole, the splint middle part is provided with and is used for avoiding the copper line to scrape disconnected fifty percent discount gasket, and still be provided with bolt and the screw that is used for pressing from both sides the splint open end on the splint, the side of base is provided with the bobbin that is used.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the worker rotates the rotating wheel to fix the gear ring and the material storage ring, then, the clamping mechanism is started to fix the iron ring on the clamping mechanism, and the iron ring is sleeved on the gear ring, the fixing piece and the material storage ring, then, a worker fills the gap of the material storage ring through the connecting piece, then, the transmission assembly is started to drive the gear ring to rotate on the fixing piece, then the gear ring drives the material storage ring to rotate, the copper wire on the winding drum is wound on the material storage ring, after the winding is finished, the copper wire is cut off, the worker then penetrates the copper wire through the fixing block, the copper wire is wound by one circle on the iron ring by the worker through the transmission of the second driven wheel, then, the transmission assembly is started, the material storage ring rapidly rotates, the copper wire on the material storage ring is wound on the iron ring, meanwhile, the clamping mechanism operates to drive the iron ring to rotate slowly, so that the copper wires are uniformly wound on the iron ring until the rotor is machined;

the quick winding equipment for rotor production is high in working efficiency, stable in quality and high in automation degree, and meanwhile, the equipment also reduces the labor amount of workers.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of the rotating mechanism of the present invention;

FIG. 3 is an exploded perspective view of the rotating mechanism of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3 at A;

FIG. 5 is an enlarged view of a portion of FIG. 3 at B;

FIG. 6 is an enlarged view of a portion of FIG. 3 at C;

FIG. 7 is an enlarged view of a portion of FIG. 3 at D;

FIG. 8 is a perspective view of the hinge assembly of the present invention;

FIG. 9 is a schematic perspective view of the clamping mechanism of the present invention;

FIG. 10 is an exploded perspective view of the clamping mechanism of the present invention;

FIG. 11 is an enlarged view of a portion of FIG. 10 at E;

fig. 12 is a partial enlarged view of fig. 10 at F.

The reference numbers in the figures are: a base 1; a clamping mechanism 2; a rotating mechanism 3; a vertical plate 4; a ring gear 5; a fixing member 6; a storage ring 7; a rotating wheel 8; a first rotating electrical machine 9; a first gear 10; a second gear 11; a third gear 12; a fourth gear 13; a second rotating electrical machine 14; a threaded rod 15; a moving block 16; a motor base 17; a transmission case 18; a support plate 19; a bearing housing 20; a first bevel gear 21; a second bevel gear 22; a third rotating electrical machine 23; a motor frame 24; a first carrier block 25; a guide rod 26; a hold-down spring 27; a first strut 28; a slider 29; a second support 30; a second carrier block 31; a bearing 32; an arc-shaped connecting piece 33; a connecting plate 34; an arc-shaped plate 35; a support assembly 36; a latch 37; a first driven pulley 38; a second driven pulley 39; a fixed block 40; a cross bar 41; a third driven pulley 42; a clamp plate 43; a spacer 44; a bobbin 45.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Referring to fig. 1 to 12, shown a swift spooling equipment for rotor production, which comprises a base 1, clamping mechanism 2 and slewing mechanism 3, the vertical fixed crescent riser 4 that is provided with in upper end of base 1, clamping mechanism 2 sets up the upper end at base 1, and clamping mechanism 2 sets up the side at riser 4, slewing mechanism 3 sets up on riser 4, slewing mechanism 3 is including the ring gear 5 that has the arc breach, fixing piece 6 that has the arc breach, the storage circle 7 and the drive assembly that have the arc breach, fixing piece 6 is fixed to be set up on riser 4, ring gear 5 rotates and sets up on fixing piece 6, storage circle 7 rotates the side that sets up at ring gear 5 through a plurality of supporting mechanism, and ring gear 5 and storage circle 7 are through rotating wheel 8 fixed connection, the drive assembly rotates and sets up on riser 4. Firstly, a worker rotates a rotating wheel 8 to fix a gear ring 5 and a storage ring 7, then, a transmission assembly is started to drive the gear ring 5 to rotate on a fixing piece 6, then the gear ring 5 drives the storage ring 7 to rotate, so that a copper wire is wound on the storage ring 7, after the winding is finished, the copper wire is cut off, meanwhile, the worker starts a clamping mechanism 2 to fix an iron ring on the clamping mechanism 2, then, the worker winds the copper wire on the iron ring for one turn, then, the transmission assembly is started, the storage ring 7 rotates rapidly, the copper wire on the storage ring 7 is wound on the iron ring, meanwhile, the clamping mechanism 2 works to drive the iron ring to rotate slowly, so that the copper wire is wound on the iron ring uniformly, and the gear ring 5, the fixing piece 6 and the storage ring 7 are arranged in a shape with notches, so that the inner part of the iron ring is sleeved on the gear ring 5, the fixing piece 6 and the storage ring 7, so that the copper wire on the material storage ring 7 can be better wound on the iron ring and can be easily taken out after the rotor is processed.

The transmission assembly comprises a first rotating motor 9, a first gear 10, a second gear 11, two third gears 12 and two fourth gears 13, the first rotating motor 9 is fixedly arranged at the upper end of the base 1, the first gear 10 is fixedly arranged at the output end of the first rotating motor 9, the second gear 11, the two third gears 12 and the two fourth gears 13 are both rotatably arranged on the same end face of the vertical plate 4, the second gear 11 is in meshing transmission with the first gear 10, the second gear 11 is in meshing transmission with the gear ring 5, the two third gears 12 are arranged at two ends of the second gear 11, the two third gears 12 are in meshing transmission with the second gear 11 respectively, the two fourth gears 13 are arranged at the sides of the two third gears 12 respectively, and the two fourth gears 13 are in meshing transmission with the gear ring 5 and the two third gears 12 respectively. Firstly, the transmission assembly works, the first rotating electric machine 9 is started to drive the first gear 10 to rotate, the first gear 10 synchronously drives the second gear 11, the two third gears 12 and the two fourth gears 13 to rotate, and the second gear 11 and the two fourth gears 13 are in meshing transmission with the gear ring 5, because the gear ring 5 is provided with a notch, the gear ring 5 can be better operated by the arrangement.

The clamping mechanism 2 comprises a second rotating motor 14, three threaded rods 15, three moving blocks 16, a driving rotating assembly and two groups of driven rotating assemblies, the second rotating motor 14 is vertically and fixedly arranged inside the base 1 through a motor base 17, a transmission case 18 is fixedly arranged right above the motor base 17, three support plates 19 are equidistantly arranged at the upper end of the motor base 17 along the circumferential direction of the transmission case 18, the three support plates 19 are horizontally and fixedly arranged on the base 1, bearings 32 are vertically and fixedly arranged at one ends of the three support plates 19 far away from the transmission case 18, one ends of the three threaded rods 15 are respectively and rotatably arranged on the bearings 32, the other ends of the three threaded rods 15 are respectively arranged in the transmission case 18, one ends of the transmission cases 18 of the three threaded rods 15 are respectively and fixedly connected with a first bevel gear 21, and the output end of the second rotating motor 14 is fixedly connected with a second bevel gear 22, the second bevel gears 22 are meshed with the three first bevel gears 21, the bottoms of the three moving blocks 16 are respectively arranged on the three support plates 19 in a sliding mode, the three moving blocks 16 are respectively in threaded connection with the three threaded rods 15, and the driving rotating assembly and the two sets of driven rotating assemblies are respectively arranged on the three moving blocks 16. Firstly, the clamping mechanism 2 operates, the second rotating motor 14 is started to drive the second bevel gear 22 to rotate, the second bevel gear 22 synchronously drives the three first bevel gears 21 to rotate, so that the three threaded rods 15 synchronously rotate, the three threaded rods 15 synchronously drive the three moving blocks 16 to move in the same direction, the three moving blocks 16 synchronously drive the driving rotating assembly and the two groups of driven rotating assemblies to synchronously move in the same direction, and the iron ring is clamped between the driving rotating assembly and the two groups of driven rotating assemblies.

The driving rotating assembly comprises a third rotating motor 23, a motor frame 24 and a first supporting block 25, guide rods 26 are horizontally and fixedly arranged on the three moving blocks 16 along the length direction of the moving blocks 16, pressing springs 27 are sleeved on the guide rods 26, the motor frame 24 is vertically and slidably arranged on one guide rod 26, one pressing spring 27 is tightly abutted to the bottom of the motor frame 24, the third rotating motor 23 is vertically and fixedly arranged on the motor frame 24, the output end of the third rotating motor 23 is fixedly connected with a first supporting column 28, the first supporting block 25 is fixedly arranged at the upper end of the first supporting column 28 through bolts, each group of driven rotating assemblies comprises a sliding block 29, a second supporting column 30 and a second supporting block 31, the two sliding blocks 29 are respectively and vertically and slidably arranged on the two guide rods 26, the lower end of the second supporting column 30 is rotatably arranged inside the sliding block 29 through a bearing 32, the second pad 31 is fixedly disposed at the upper end of the second support column 30 by bolts. Firstly, when initiative rotating assembly and two sets of driven rotating assembly are fixed with the hoop, first tray 25 and two second trays 31 support the hoop promptly, then, when twining the copper line to the hoop, third rotating electrical machines 23 starts, drive first pillar 28 and first tray 25 and rotate, thereby drive the slow rotation of hoop, make the even winding of copper line on the hoop, two sets of driven rotating assembly play supplementary effect, pressure spring 27's installation, be favorable to when first tray 25 and two second trays 31 support the hoop, there is a pretightning force, make the hoop rotate on first tray 25 and two second trays 31 that can be fine.

Still be provided with hinge assembly on the storage circle 7, hinge assembly includes arc connecting piece 33 and two connecting plates 34, and the both ends symmetry of storage circle 7 is provided with two pin joints, and the one end of two connecting plates 34 is rotated respectively and is set up on two pin joints to the other end of two connecting plates 34 rotates respectively and sets up the both sides at arc connecting piece 33, and the slip is provided with the arc 35 that is used for compressing tightly arc connecting piece 33 on the one end of keeping away from two pin joints on the storage circle 7. At first, overlap the hoop at ring gear 5, mounting 6 and storage circle 7 as the staff, and when fixing the hoop, the staff needs to be manual to rotate arc connecting piece 33 to the breach department of storage circle 7, at slip arc 35, block arc connecting piece 33, so that follow-up winding that is better with the copper line is on storage circle 7, copper line when storage circle 7 is used up, and when having processed the rotor, the staff alright manual opens the breach of storage circle 7, it can to take out the rotor that will process.

The supporting mechanism comprises four groups of supporting assemblies 36, the four groups of supporting assemblies 36 are arranged at the upper end and the lower end of the vertical plate 4 respectively, each group of supporting assemblies 36 comprises a bolt 37 and a first driven wheel 38, the bolt 37 is fixedly arranged on the vertical plate 4 through a bolt, the first driven wheel 38 is rotatably arranged on the bolt 37 through a nut, and the four first driven wheels 38 are all abutted to the outer edge of the storage ring 7. Firstly, the four sets of support members 36 are mounted because the toothed ring 5 and the magazine 7 are held by means of the rotating wheels 8 only, which is obviously unstable, and the four first driven wheels 38 can be held firmly against the outer edge of the magazine 7, so that the magazine 7 can be operated better.

Still fixed second from driving wheel 39 and fixed block 40 of being provided with on the coil, second from driving wheel 39 and fixed block 40 all set up between ring gear 5 and storage ring 7 to second from driving wheel 39 sets up the side at fixed block 40, offers the through-hole that is used for the copper line to pass on the fixed block 40, is provided with the recess that is used for avoiding the copper line to drop from driving wheel 39. Firstly, the fixing block 40 is arranged to facilitate the passing of the copper wire, and the copper wire is prevented from being disconnected after passing through the second driven wheel 39.

Fixed horizontal pole 41 that is provided with respectively in the top both ends of riser 4, it is provided with the third from driving wheel 42 to rotate on the horizontal pole 41 of neighbour's clamping mechanism 2 on riser 4, the third is offered from driving wheel 42 and is used for avoiding the recess that the copper line drops, the fixed U type splint 43 that is provided with on another horizontal pole 41, splint 43 middle part is provided with and is used for avoiding the fifty percent discount gasket 44 that the copper line was scraped absolutely, and still be provided with bolt and the screw that is used for pressing from both sides the splint 43 open end on splint 43, base 1's side is provided with bobbin 45 that is used for. Firstly, before the staff twined the copper wire that will twine on will bobbin 45 and twined on storage ring 7, the copper wire passed the gasket 44 of fifty percent discount earlier, is being followed the transmission of driving wheel 42 through the third, twines the copper wire on storage ring 7, and the installation of bolt and screw is favorable to fixing gasket 44 in splint 43.

The working principle is as follows: firstly, the worker rotates the rotating wheel 8 to fix the gear ring 5 and the storage ring 7, so as to ensure that the gaps of the gear ring 5, the fixing part 6 and the storage ring 7 are not staggered, then, the clamping mechanism 2 is started to fix the iron ring on the clamping mechanism 2, and the iron ring is sleeved on the gear ring 5, the fixing part 6 and the storage ring 7, then, the worker supplements the gap of the storage ring 7 through a connecting piece, then, the transmission component is started to drive the gear ring 5 to rotate on the fixing part 6, then, the gear ring 5 drives the storage ring 7 to rotate, the copper wire on the winding drum 45 is wound on the storage ring 7, after the winding is finished, the copper wire is cut off, the worker passes through the fixing block 40 again, the worker winds the copper wire around the iron ring by one turn through the transmission of the second driven wheel 39, then, the transmission component is started, the storage ring 7 rapidly rotates, and the copper wire on the storage ring 7 is wound, simultaneously, 2 operations of clamping mechanism drive the hoop and slowly rotate for the even winding of copper line is on the hoop, and is accomplished until processing the rotor.

Claims (6)

1. A quick winding device for rotor production is characterized by comprising a base (1), a clamping mechanism (2) and a rotating mechanism (3), wherein a crescent-shaped vertical plate (4) is vertically and fixedly arranged at the upper end of the base (1), the clamping mechanism (2) is arranged beside the vertical plate (4), the rotating mechanism (3) is arranged on the vertical plate (4), the rotating mechanism (3) comprises a gear ring (5) with an arc-shaped notch, a fixing part (6) with the arc-shaped notch, a storage ring (7) with the arc-shaped notch and a transmission assembly, the fixing part (6) is fixedly arranged on the vertical plate (4), the gear ring (5) is rotatably arranged on the fixing part (6), the storage ring (7) is rotatably arranged beside the gear ring (5) through a plurality of supporting mechanisms, and the gear ring (5) and the storage ring (7) are fixedly connected through a rotating wheel (8), the transmission component is rotationally arranged on the vertical plate (4);

the transmission component comprises a first rotating motor (9), a first gear (10), a second gear (11), two third gears (12) and two fourth gears (13), the first rotating motor (9) is fixedly arranged at the upper end of the base (1), the first gear (10) is fixedly arranged at the output end of the first rotating motor (9), the second gear (11), the two third gears (12) and the two fourth gears (13) are all rotatably arranged on the same end surface of the vertical plate (4), the second gear (11) is in meshing transmission with the first gear (10), the second gear (11) is in meshing transmission with the gear ring (5), the two third gears (12) are arranged at two ends of the second gear (11), the two third gears (12) are in meshing transmission with the second gear (11) respectively, the two fourth gears (13) are arranged at the sides of the two third gears (12) respectively, the two fourth gears (13) are respectively in meshing transmission with the gear ring (5) and the two third gears (12);

the clamping mechanism (2) comprises a second rotating motor (14), three threaded rods (15), three moving blocks (16), a driving rotating assembly and two groups of driven rotating assemblies, the second rotating motor (14) is vertically and fixedly arranged inside the base (1) through a motor base (17), a transmission case (18) is fixedly arranged right above the motor base (17), three support plates (19) are equidistantly arranged at the upper end of the motor base (17) along the circumferential direction of the transmission case (18), the three support plates (19) are horizontally and fixedly arranged on the base (1), bearing (32) bases (20) are vertically and fixedly arranged at one ends of the three support plates (19) far away from the transmission case (18), one ends of the three threaded rods (15) are respectively and rotatably arranged on the bearing (32) bases (20), and the other ends of the three threaded rods (15) are all arranged in the transmission case (18), and the equal fixedly connected with first bevel gear (21) of one end of three threaded rod (15) neighbour transmission case (18), the output fixedly connected with second bevel gear (22) of second rotating electrical machines (14), second bevel gear (22) are connected with three first bevel gear (21) meshing, the bottom of three movable block (16) slides respectively and sets up on three extension board (19), and three movable block (16) respectively with three threaded rod (15) threaded connection, initiative rotating assembly and two sets of driven rotating assembly set up respectively on three movable block (16).

2. The quick winding device for rotor production as claimed in claim 1, wherein the driving rotating assembly comprises a third rotating motor (23), a motor frame (24) and a first supporting block (25), guide rods (26) are horizontally and fixedly arranged on the three moving blocks (16) along the length direction of the moving blocks (16), compression springs (27) are sleeved on the guide rods (26), the motor frame (24) is vertically and slidably arranged on one of the guide rods (26), one of the compression springs (27) is tightly abutted to the bottom of the motor frame (24), the third rotating motor (23) is vertically and fixedly arranged on the motor frame (24), the output end of the third rotating motor (23) is fixedly connected with a first supporting column (28), the first supporting block (25) is fixedly arranged at the upper end of the first supporting column (28) through a bolt, and each group of driven rotating assemblies comprises a sliding block (29), Second pillar (30) and second tray (31), two sliding blocks (29) are vertical slip respectively and are set up on two of them guide bar (26), and the lower extreme of second pillar (30) passes through bearing (32) and rotates the inside that sets up at sliding block (29), and second tray (31) pass through the fixed upper end that sets up at second pillar (30) of bolt.

3. The fast winding device for rotor production according to claim 1, characterized in that a hinge assembly is further arranged on the storage ring (7), the hinge assembly comprises an arc-shaped connecting piece (33) and two connecting plates (34), two hinge points are symmetrically arranged at two ends of the storage ring (7), one ends of the two connecting plates (34) are respectively rotatably arranged on the two hinge points, the other ends of the two connecting plates (34) are respectively rotatably arranged at two sides of the arc-shaped connecting piece (33), and an arc-shaped plate (35) for compressing the arc-shaped connecting piece (33) is slidably arranged at one end of the storage ring (7) far away from the two hinge points.

4. The fast winding device for rotor production is characterized in that the supporting mechanism comprises four groups of supporting assemblies (36), the four groups of supporting assemblies (36) are respectively arranged at the upper end and the lower end of a vertical plate (4), each group of supporting assemblies (36) comprises a bolt (37) and a first driven wheel (38), the bolt (37) is fixedly arranged on the vertical plate (4) through a bolt, the first driven wheel (38) is rotatably arranged on the bolt (37) through a nut, and the four first driven wheels (38) are abutted to the outer edge of the material storage ring (7).

5. The quick winding device for rotor production as claimed in claim 1, wherein a second driven wheel (39) and a fixed block (40) are further fixedly arranged on the coil, the second driven wheel (39) and the fixed block (40) are both arranged between the gear ring (5) and the material storage ring (7), the second driven wheel (39) is arranged beside the fixed block (40), a through hole for a copper wire to pass through is formed in the fixed block (40), and a groove for avoiding the copper wire to fall off is formed in the second driven wheel (39).

6. The quick winding device for rotor production according to claim 1, characterized in that cross rods (41) are fixedly arranged at two ends of the top of a vertical plate (4) respectively, a third driven wheel (42) is arranged on the cross rod (41) of the adjacent clamping mechanism (2) on the vertical plate (4) in a rotating manner, a groove used for avoiding a copper wire from falling off is formed in the third driven wheel (42), a U-shaped clamping plate (43) is fixedly arranged on the other cross rod (41), a folding gasket (44) used for avoiding the copper wire from being scraped and broken is arranged in the middle of the clamping plate (43), a bolt and a screw used for clamping the opening end of the clamping plate (43) are further arranged on the clamping plate (43), and a winding bobbin (45) used for winding the copper wire is arranged on the side of the base (.

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