CN110304318B

CN110304318B - Enameled wire winding device

Info

Publication number: CN110304318B
Application number: CN201910394864.9A
Authority: CN
Inventors: 余丹丹
Original assignee: Jiangsu Yuming Copper Industry Co ltd
Current assignee: Jiangsu Yuming Copper Industry Co ltd
Priority date: 2019-05-13
Filing date: 2019-05-13
Publication date: 2021-02-12
Anticipated expiration: 2039-05-13
Also published as: CN110304318A

Abstract

The invention discloses an enameled wire winding device, which comprises a winding main body, wherein an enameled wire output block is fixedly installed on the end surface of the top of the winding main body, a composite enameled wire is output at an enameled wire output port below the enameled wire output block, a winding working chamber is also arranged in the winding main body, a left-right moving component is arranged below the winding working chamber, and comprises a sliding limiting block and a left-right moving chamber positioned below the sliding limiting block. Dust is less generated, and the enameled wire is not abraded.

Description

Enameled wire winding device

Technical Field

The invention relates to the field of enameled wire winding, in particular to an enameled wire winding device.

Background

When producing the enameled wire, need pack the enameled wire of production, generally can twine the enameled wire on a section of thick bamboo when packing, in the winding, most of current equipment are around on the bobbin equally for driving moving about the enameled wire, and the wire winding of this kind of mode is because the removal friction of enameled wire can produce a lot of dust, perhaps overweight friction leads to enameled wire wearing and tearing, influence its quality, the mode of controlling about then generally can use two drive assembly controls, the phenomenon of skidding still can appear having certain probability when bobbin is wire-wound, consequently need one kind to need not to control about the enameled wire but move about the bobbin, only by the spooling equipment that a power control removed.

Disclosure of Invention

The invention aims to provide an enameled wire winding device which is used for overcoming the defects in the prior art.

The enameled wire winding device comprises a winding main body, wherein an enameled wire output block is fixedly installed on the end surface of the top of the winding main body, a composite enameled wire is output at an enameled wire output port below the enameled wire output block, a winding working chamber is also arranged in the winding main body, a left-right moving component is arranged below the winding working chamber and comprises a sliding limiting block and a left-right moving chamber positioned below the sliding limiting block, the left-right moving component also comprises a sliding limiting groove for limiting the displacement of the sliding limiting block, a left-right moving gear for moving the sliding limiting block is arranged in the left-right moving chamber, a back-and-forth driving component positioned at the rear side of the left-right moving component is also arranged in the winding main body and comprises a power motor and a winding power chamber, and the whole back-and-forth driving component is driven, wherein, the reciprocating driving part also comprises a forward rotation main shaft, the forward rotation main shaft controls the forward rotation and the reverse rotation of the left-right gear through the forward rotation main shaft, the movement of the sliding limiting block is further controlled, a forward rotation belt pulley is fixedly arranged on the forward rotation main shaft, a reverse transmission part is also arranged in the reciprocating driving part, the reverse transmission part comprises a reverse rotation main shaft positioned between the front inner wall and the rear inner wall of the winding power cavity, a reverse rotation gear is arranged on the outer side of the reverse rotation main shaft, a reverse rotation belt toothed ring is arranged on the outer side of the reverse rotation gear, the rotation direction of the reverse rotation belt toothed ring is opposite to that of the forward rotation belt pulley through meshing, the reciprocating driving part and the reverse transmission part can control the forward rotation main shaft and the reverse rotation through the forward rotation belt pulley and the reverse rotation belt toothed ring, the bobbin can be installed on the spline shaft to wind the enameled wire.

According to a further technical scheme, the reciprocating driving component comprises a winding power cavity located on the rear side of the winding working cavity, a power motor is fixedly installed in the inner wall of the rear side of the winding power cavity, the front side end face of an output shaft on the front side of the power motor is fixedly connected with a transmission main shaft which is installed on the inner wall of the front side of the winding power cavity in a rotating fit mode, a transmission half gear is fixedly installed on the transmission main shaft, a half-turn half-toothed ring is arranged on the transmission half gear, a forward rotation main shaft is located above the power motor between the front inner wall and the rear inner wall of the winding power cavity in a rotating fit mode, a first transmission gear meshed with the half-toothed ring is fixedly installed on the forward rotation main shaft, and two forward rotation belt pulleys are symmetrically.

The technical scheme is further that the reverse transmission component comprises a reverse main shaft which is installed between the front inner wall and the rear inner wall of the winding power cavity in a rotating fit mode, a second transmission gear meshed with the half gear ring is fixedly installed on the reverse main shaft, two transmission gear rings are symmetrically installed on the reverse main shaft in a front-back mode, six rotating fixing pins with the same interval are symmetrically and fixedly installed on the front inner wall and the rear inner wall of the winding power cavity around the reverse main shaft, rotating limiting pins are installed in the rotating fixing pins in a rotating fit mode, a reverse limiting gear shaft is fixedly installed on the front side end face and the rear side end face of the rotating limiting pins opposite to each other, a reverse gear meshed with the transmission gear rings is fixedly installed on the reverse limiting gear shaft, a first rotating limiting block is fixedly installed on the reverse limiting gear shaft, and a second rotating limiting block, the utility model discloses a belt wheel assembly, including first ring gear, first ring gear fixing base, second ring gear fixing base, first stopper normal running fit is rotated to the first ring gear that rotates, the transmission ring gear outside is located the front and back the first ring gear fixing base inboard is provided with second ring gear fixing base, second ring gear fixing base with the stopper normal running fit is rotated to the second, second ring gear fixing base with be equipped with the reversal chamber between the first ring gear fixing base, around the reversal chamber inner wall symmetry fixed mounting rotates the stopper ring around, around the rotation stopper ring normal running fit installation reversal belt ring gear between the rotation stopper ring, reversal belt ring gear inner circle is equipped with the ring gear, the reversal gear with the ring gear meshing of reversal belt ring gear.

The technical scheme is further that the left-right moving part comprises an auxiliary rotating shaft which is installed between the front inner wall and the rear inner wall of the winding power cavity in a rotating fit mode, an auxiliary belt pulley is fixedly installed on the auxiliary rotating shaft, an output main shaft is installed between the front inner wall and the rear inner wall of the winding power cavity in a rotating fit mode and located on the right side of the transmission main shaft, an output belt pulley is fixedly installed on the output main shaft, a transmission belt which bypasses the forward rotation belt pulley and the reverse rotation belt toothed ring is installed between the output belt pulley and the auxiliary belt pulley in a transmission fit mode, a sliding limiting groove is formed in the winding working cavity in a downward communication mode, a left-right moving cavity is formed in the bottom wall of the sliding limiting groove in a communication mode, the output main shaft extends forwards to be in rotating fit with the inner wall on the front, the end face of the bottom of the sliding limiting block is provided with a rack which is engaged with the left and right moving gears, a section of limiting sliding groove is arranged in the top wall of the sliding limiting groove, and the end face of the top of the sliding limiting block is fixedly provided with a limiting sliding block which is in sliding fit with the limiting sliding groove.

Further technical scheme, the coiling packing plant includes fixed mounting and is in the fixed station of slip stopper top terminal surface, fixed station top terminal surface fixed mounting wire-wound motor, the right side terminal surface fixed connection integral key shaft of the output shaft on wire-wound motor right side, the fixed mounting location stopper on the integral key shaft, be equipped with the screw hole of opening right in the integral key shaft right side terminal surface, screw hole department screw-thread fit installation screw thread stopper, but spline fit installation bobbin on the integral key shaft.

According to the further technical scheme, the winding drum comprises a winding sleeve, and enameled wire limiting blocks are fixedly mounted on the winding sleeve in a bilateral symmetry mode.

The invention has the beneficial effects that: the winding device is simple in structure and convenient to operate, the reciprocating driving component can provide power, the sliding limiting block can be controlled to move left and right by matching with the reverse transmission component, the winding packaging device is driven to move left and right, the movement speed is stable, winding is uniform, the product is more attractive, the bobbin is convenient to disassemble and assemble, the bobbin cannot slip during winding, the enameled wire does not need to move left and right during winding, dust is less generated, the enameled wire cannot be abraded, the integrity of the winding device is strong, the automation degree is high, the control is convenient, and the winding device is worthy of popularization.

Drawings

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

FIG. 2 is a schematic sectional view taken along line A-A in FIG. 1;

fig. 3 is a schematic sectional view in the direction B-B in fig. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, for the sake of convenience, the orientations described hereinafter being defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 3, an enameled wire winding device according to an embodiment of the present invention includes a winding main body 10, an enameled wire output block 20 is fixedly installed on a top end surface of the winding main body 10, a composite enameled wire 30 is output at an enameled wire output port below the enameled wire output block 20, a winding working chamber 18 is further provided in the winding main body 10, a left-right moving component is provided below the winding working chamber 18, the left-right moving component includes a sliding limit block 14 and a left-right moving chamber 15 located below the sliding limit block 14, the left-right moving component further includes a sliding limit groove 11 for limiting displacement of the sliding limit block 14, a left-right moving gear 16 for moving the sliding limit block 14 is provided in the left-right moving chamber 15, a back-and-forth driving component located at a rear side of the left-right moving component is further provided in the winding main body 10, the whole reciprocating driving part is driven to run by the power motor 38, wherein the reciprocating driving part further comprises a forward rotation main shaft 35, forward rotation and reverse rotation of the left-right moving gear 16 are controlled by the forward rotation main shaft 35, movement of the sliding limiting block 14 is further controlled, a forward rotation belt pulley 33 is fixedly installed on the forward rotation main shaft 35, a reverse driving part is further arranged in the reciprocating driving part, the reverse driving part comprises a reverse rotation main shaft 46 positioned between the front inner wall and the rear inner wall of the winding power cavity 32, a reverse rotation gear 44 is arranged on the outer side of the reverse rotation main shaft 46, a reverse rotation belt toothed ring 41 is arranged on the outer side of the reverse rotation gear 44, the rotating direction of the reverse rotation belt toothed ring 41 is opposite to that of the forward rotation belt pulley 33 through meshing, the reciprocating driving part and the reverse driving part can control the forward rotation main shaft 35 to rotate forward and reverse through the forward, the winding and packaging device comprises a winding motor 22 and a winding drum, an output shaft on the right side of the winding motor 22 is connected with a spline shaft 23, and the winding drum can be arranged on the spline shaft 23 to wind an enameled wire.

Beneficially or exemplarily, the reciprocating driving component comprises a winding power cavity 32 located at the rear side of the winding working cavity 18, a power motor 38 is fixedly installed in the inner wall of the rear side of the winding power cavity 32, a front side end face of an output shaft at the front side of the power motor 38 is fixedly connected with a transmission main shaft 40 which is rotatably installed with the inner wall of the front side of the winding power cavity 32, a transmission half gear 37 is fixedly installed on the transmission main shaft 40, a half-turn half-toothed ring 57 is arranged on the transmission half gear 37, a forward rotation main shaft 35 is rotatably installed above the power motor 38 between the front inner wall and the rear inner wall of the winding power cavity 32, a first transmission gear 34 which is engaged with the half-toothed ring 57 is fixedly installed on the forward rotation main shaft 35, two forward rotation pulleys 33 are symmetrically and fixedly installed on the forward rotation main shaft 35 in a front-back manner, so that the transmission main shaft 40 and the transmission half-toothed, the transmission half gear 37 drives the first transmission gear 34 to synchronously rotate through meshing, the first transmission gear 34 drives the forward rotation main shaft 35 to rotate, and the forward rotation main shaft 35 drives the forward rotation belt pulleys 33 on the front side and the rear side to simultaneously rotate.

Beneficially or exemplarily, the reverse transmission component comprises a reverse main shaft 46 which is rotatably fitted and installed between the front and rear inner walls of the winding power cavity 32, a second transmission gear 50 engaged with the semi-toothed ring 57 is fixedly installed on the reverse main shaft 46, two transmission toothed rings 45 are symmetrically installed on the reverse main shaft 46 in the front and rear directions, six rotation fixing pins 47 with the same interval are symmetrically and fixedly installed on the front and rear inner walls of the winding power cavity 32 around the reverse main shaft 46, a rotation limiting pin 53 is rotatably fitted and installed in each rotation fixing pin 47, a reverse limiting gear shaft 52 is fixedly installed on the opposite side end surfaces of the front and rear rotation limiting pins 53, a reverse gear 44 engaged with the transmission toothed rings 45 is fixedly installed on the reverse limiting gear shaft 52, a first rotation limiting gear shaft 55 is fixedly installed on the front and rear reverse limiting gear shafts 52, and second rotation limiting blocks 56 are further fixedly installed on the front and rear reversing limiting gear shafts 52, a first gear ring fixing seat 42 is arranged on the outer side of the transmission gear ring 45, the first gear ring fixing seat 42 is in rotating fit with the reverse limiting gear shaft 52 and the first rotating limiting block 55, a second gear ring fixing seat 54 is arranged on the inner side of the first gear ring fixing seat 42 on the outer side of the transmission gear ring 45 and positioned at the front and the back, the second gear ring fixing seat 54 is in rotating fit with the reverse limiting gear shaft 52 and the second rotating limiting block 56, a reverse cavity 48 is arranged between the second gear ring fixing seat 54 and the first gear ring fixing seat 42, the front inner wall and the back inner wall of the front reverse cavity 48 and the back reverse cavity 48 are symmetrically and fixedly provided with rotating limiting rings 43, a reverse belt gear ring 41 is arranged between the front rotating limiting ring 43 and the back rotating limiting ring 43 in rotating fit, an inner ring gear is arranged on the inner ring of the reverse belt gear ring 41, the reverse gear 44 is engaged with the inner ring of the reverse belt gear, the half-toothed ring 57 is firstly meshed with the first transmission gear 34, and after being disengaged from the first transmission gear 34, the half-toothed ring is meshed with the second transmission gear 50 to drive the second transmission gear 50 to rotate, the second transmission gear 50 drives the reverse main shaft 46 and the transmission toothed ring 45 to rotate, the transmission toothed ring 45 drives the reverse gear 44 and the reverse limit gear shaft 52 to rotate through meshing, and the reverse gear 44 drives the reverse belt toothed ring 41 to rotate through meshing because the second toothed ring fixing seat 54 and the first toothed ring fixing seat 42 which rotate the limit pin 53 cannot rotate.

Beneficially or exemplarily, the left-right moving part comprises an auxiliary rotating shaft 58 rotatably installed between the front inner wall and the rear inner wall of the winding power cavity 32 in a matching manner, an auxiliary belt pulley 60 is fixedly installed on the auxiliary rotating shaft 58, an output main shaft 17 is rotatably installed between the front inner wall and the rear inner wall of the winding power cavity 32 at the right side of the transmission main shaft 40 in a matching manner, an output belt pulley 61 is fixedly installed on the output main shaft 17, a transmission belt 36 passing around the forward rotating belt pulley 33 and the reverse rotating belt toothed ring 41 is installed between the output belt pulley 61 and the auxiliary belt pulley 60 in a matching manner in a transmission manner, the winding working cavity 18 is provided with a sliding limiting groove 11 in a downward communication manner, a left-right moving cavity 15 is provided in a bottom wall of the sliding limiting groove 11 in a communication manner, the output main shaft 17 extends forward to be rotatably matched with the front inner wall of the, the sliding limiting block 14 is installed in the sliding limiting groove 11 in a sliding fit manner, a rack meshed with the left and right moving gear 16 is arranged on the bottom end face of the sliding limiting block 14, a section of limiting sliding groove 13 is arranged in the top wall of the sliding limiting groove 11, a limiting sliding block 12 in sliding fit with the limiting sliding groove 13 is fixedly installed on the top end face of the sliding limiting block 14, so that when the half-toothed ring 57 is meshed with the first transmission gear 34, the transmission belt 36 is driven to perform clockwise transmission, the output belt pulley 61 is driven to rotate clockwise, the output belt pulley 61 drives the output main shaft 17 to rotate clockwise, the output main shaft 17 drives the left and right moving gear 16 to rotate clockwise, the left and right moving gear 16 drives the sliding limiting block 14 to slide rightwards through meshing, when the half-toothed ring 57 starts to be meshed with the second transmission gear 50, the second transmission gear, the reverse rotation belt gear ring 41 drives the transmission belt 36 to rotate counterclockwise, and further drives the left-right moving gear 16 to rotate counterclockwise, and drives the sliding limiting block 14 to slide leftward.

Beneficially or exemplarily, the winding and packaging device includes a fixing table 21 fixedly installed on the top end face of the sliding limit block 14, a winding motor 22 is fixedly installed on the top end face of the fixing table 21, a spline shaft 23 is fixedly connected to the right end face of the output shaft on the right side of the winding motor 22, a positioning limit block 24 is fixedly installed on the spline shaft 23, a threaded hole 27 with a right opening is formed in the right end face of the spline shaft 23, a thread limit block 28 is installed at the threaded hole 27 in a threaded fit manner, a bobbin can be installed on the spline shaft 23 in a spline fit manner, so that the thread limit block 28 can be unscrewed, the bobbin is installed on the spline shaft 23, the winding motor 22 is started to drive the spline shaft 23 to rotate, and the composite enameled wire 30 is wound on.

Advantageously or exemplarily, the bobbin includes a winding sleeve 26, and the wire winding sleeve 26 is fixedly installed with the wire stopper 25 in a left-right symmetrical manner, so that when the winding sleeve 26 is installed, the spline hole in the winding sleeve 26 is inserted into the spline shaft 23, the thread stopper 28 is tightened to complete the installation, and the winding motor 22 is started to wind the composite enameled wire 30 after the composite enameled wire is fixed on the winding sleeve 26.

When the compound enamelled wire winding machine is used, the thread limiting block 28 is unscrewed, the spline hole in the winding sleeve 26 is aligned with the spline shaft 23 and then inserted, the thread limiting block 28 is screwed to complete installation, the compound enamelled wire 30 is fixed on the winding sleeve 26, the winding motor 22 is started to drive the spline shaft 23 to rotate, the power motor 38 is started to control the rotation of the transmission main shaft 40 and the transmission half gear 37, the transmission half gear 37 drives the first transmission gear 34 to synchronously rotate through meshing, the first transmission gear 34 drives the forward rotation main shaft 35 to rotate, the forward rotation main shaft 35 drives the forward rotation belt pulleys 33 on the front side and the rear side to simultaneously rotate, when the transmission main shaft 40 drives the transmission half gear 37 to rotate, the half gear ring 57 is firstly meshed with the first transmission gear 34, and after being disengaged from the first transmission gear 34, starts to be meshed with the second transmission gear 50 to drive the second transmission gear 50 to rotate, the, the transmission gear ring 45 drives the reverse gear 44 and the reverse limit gear shaft 52 to rotate through meshing, because the fixed second gear ring fixing seat 54 of the rotation limit pin 53 and the first gear ring fixing seat 42 can not rotate, the reverse gear 44 drives the reverse belt gear ring 41 to rotate through meshing, when the half gear ring 57 is meshed with the first transmission gear 34, the transmission belt 36 is driven to rotate clockwise, the output belt pulley 61 is driven to rotate clockwise, the output main shaft 61 drives the output main shaft 17 to rotate clockwise, the output main shaft 17 drives the left-right moving gear 16 to rotate clockwise, the left-right moving gear 16 drives the sliding limit block 14 to slide rightwards through meshing, when the half gear ring 57 starts to be meshed with the second transmission gear 50, the second transmission gear 50 drives the reverse belt gear ring 41 to rotate anticlockwise, the reverse belt gear ring 41 drives the transmission belt 36 to rotate anticlockwise, and then the left-right moving gear 16 is driven to rotate anticlockwise, the sliding limiting block 14 is driven to slide leftwards, the sliding limiting block 14 is driven to move leftwards and rightwards to drive the fixed platform 21 to move leftwards and rightwards, the composite enameled wire 30 is uniformly wound on the winding reel, then the enameled wire is cut off, the winding reel is taken down, and a new winding reel is installed for continuous winding.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. The utility model provides an enameled wire wind, includes the wire winding main part, its characterized in that: the enameled wire winding device is characterized in that an enameled wire output block is fixedly installed on the end face of the top of the winding main body, a composite enameled wire is output from an enameled wire output port below the enameled wire output block, a winding working cavity is further arranged in the winding main body, a left-right moving part is arranged below the winding working cavity and comprises a sliding limiting block and a left-right moving cavity below the sliding limiting block, the left-right moving part further comprises a sliding limiting groove for limiting the displacement of the sliding limiting block, a left-right moving gear for moving the sliding limiting block is arranged in the left-right moving cavity, a back-and-forth driving part is further arranged in the winding main body and is located at the rear side of the left-right moving part and comprises a power motor and a winding power cavity, the whole back-and-, the forward and reverse rotation of the left and right moving gear is controlled through the forward rotation main shaft, the movement of the sliding limiting block is further controlled, a forward rotation belt wheel is fixedly arranged on the forward rotation main shaft, a reverse transmission component is also arranged in the reciprocating driving component and comprises a reverse main shaft positioned between the front inner wall and the rear inner wall of the winding power cavity, a reverse gear is arranged on the outer side of the reverse main shaft, a reverse belt gear ring is arranged on the outer side of the reverse gear, the rotation direction of the reverse rotation belt gear ring is opposite to that of the forward rotation belt pulley through meshing, the forward rotation main shaft and the reverse rotation main shaft can be controlled by the reciprocating driving part and the reverse rotation driving part through the forward rotation belt pulley and the reverse rotation belt gear ring, the top end face of the sliding limiting block is also provided with a winding and packaging device, the winding and packaging device comprises a winding motor and a winding drum, an output shaft on the right side of the winding motor is connected with the spline shaft, and the winding drum can be arranged on the spline shaft to wind an enameled wire.

2. The enameled wire winding device according to claim 1, wherein: the reciprocating driving component comprises a winding power cavity located on the rear side of the winding working cavity, a power motor is fixedly installed in the inner wall of the rear side of the winding power cavity, the front side end face of an output shaft on the front side of the power motor is fixedly connected with a transmission main shaft which is installed in a rotating fit mode on the inner wall of the front side of the winding power cavity, a transmission half gear is fixedly installed on the transmission main shaft, a half-turn half-toothed ring is arranged on the transmission half gear, a forward rotation main shaft is installed between the front inner wall and the rear inner wall of the winding power cavity and located above the power motor in a rotating fit mode, a first transmission gear meshed with the half-toothed ring is fixedly installed on the forward rotation main shaft, and two forward rotation belt pulleys are.

3. The enameled wire winding device according to claim 2, wherein: the reverse transmission component comprises a reverse main shaft which is installed between the front inner wall and the rear inner wall of the winding power cavity in a rotating fit manner, a second transmission gear meshed with the half gear ring is fixedly installed on the reverse main shaft, two transmission gear rings are symmetrically installed on the reverse main shaft in a front-back manner, six rotating fixing pins with the same interval are symmetrically and fixedly installed on the front inner wall and the rear inner wall of the winding power cavity in a surrounding manner, a rotating limiting pin is installed in the rotating fixing pins in a rotating fit manner, a reverse limiting gear shaft is fixedly installed on the opposite side end surface of the rotating limiting pin in the front-back manner, a reverse gear meshed with the transmission gear rings is fixedly installed on the reverse limiting gear shaft, a first rotating limiting block is fixedly installed on the reverse limiting gear shaft in the front-back manner, a second rotating limiting block is fixedly installed on the reverse limiting gear shaft in the, the first ring gear fixing seat is in running fit with the reverse limiting gear shaft and the first rotating limiting block, the outer side of the transmission ring gear is located in the front and back, a second ring gear fixing seat is arranged on the inner side of the first ring gear fixing seat, the second ring gear fixing seat is in running fit with the reverse limiting gear shaft and the second rotating limiting block, a reverse cavity is arranged between the second ring gear fixing seat and the first ring gear fixing seat, the front and back are fixedly provided with rotating limiting rings on the front and back inner walls of the reverse cavity, a reverse belt ring gear is arranged between the rotating limiting rings in running fit, an inner ring of the reverse belt ring gear is provided with an inner ring gear, and the reverse gear is meshed with the inner ring gear of the reverse belt ring gear.

4. The enameled wire winding device according to claim 2, wherein: the left and right moving part comprises an auxiliary rotating shaft which is installed between the front inner wall and the rear inner wall of the winding power cavity in a rotating fit manner, an auxiliary belt pulley is fixedly installed on the auxiliary rotating shaft, an output main shaft is installed between the front inner wall and the rear inner wall of the winding power cavity in a rotating fit manner on the right side of the transmission main shaft, an output belt pulley is fixedly installed on the output main shaft, a transmission belt which bypasses the forward rotation belt pulley and the reverse rotation belt gear ring is installed between the output belt pulley and the auxiliary belt pulley in a rotating fit manner, the winding working cavity is communicated downwards and provided with a sliding limiting groove, a left and right moving cavity is communicated and arranged in the bottom wall of the sliding limiting groove, the output main shaft extends forwards and is in rotating fit with the inner wall on the front side of the left and right, the end face of the bottom of the sliding limiting block is provided with a rack which is engaged with the left and right moving gears, a section of limiting sliding groove is arranged in the top wall of the sliding limiting groove, and the end face of the top of the sliding limiting block is fixedly provided with a limiting sliding block which is in sliding fit with the limiting sliding groove.

5. The enameled wire winding device according to claim 1, wherein: the coiling packing plant includes fixed mounting and is in the fixed station of slip stopper top terminal surface, fixed station top terminal surface fixed mounting wire-wound motor, the right side terminal surface fixed connection integral key shaft of the output shaft on wire-wound motor right side, fixed mounting location stopper on the integral key shaft, be equipped with the screw hole of opening right in the integral key shaft right side terminal surface, screw hole department screw-thread fit installation screw stopper, but spline fit installation bobbin on the integral key shaft.

6. The enameled wire winding device according to claim 1 or 5, wherein: the winding drum comprises a winding sleeve, and enameled wire limiting blocks are fixedly mounted on the winding sleeve in a bilateral symmetry mode.