CN111462954B

CN111462954B - Enameled wire manufacturing and processing technology

Info

Publication number: CN111462954B
Application number: CN202010268042.9A
Authority: CN
Inventors: 王满永; 何海峰
Original assignee: Zhuzhou Zhaoyuan Dynamo Electric Technology Co ltd
Current assignee: ZHUZHOU ZHAOYUAN DYNAMO-ELECTRIC TECHNOLOGY Co.,Ltd.
Priority date: 2020-04-08
Filing date: 2020-04-08
Publication date: 2021-04-16
Anticipated expiration: 2040-04-08
Also published as: CN111462954A

Abstract

The invention relates to an enameled wire manufacturing and processing technology, which is mainly completed by matching an enameled wire manufacturing and heat dissipation guiding and processing system, wherein the enameled wire manufacturing and heat dissipation guiding and processing system comprises an installation frame, a heat dissipation external member and a coil external member, wherein the heat dissipation external member and the coil external member are sequentially arranged in the installation frame from front to back, and the enameled wire manufacturing and processing technology can solve the following problems existing in the conventional enameled wire manufacturing process: a, after the existing enameled wire is annealed and softened, the enameled wire is heated, the temperature of the enameled wire is increased, and for the purpose of normally carrying out subsequent operation, the common enameled wire is cooled to room temperature and then is operated, so that the time is greatly wasted, and the working efficiency is low; b: the existing enameled wire is wound, the phenomenon of winding material accumulation often occurs, so that the winding amount of the winding post is reduced, and the winding post is overstaffed and affects the appearance after the enameled wire is wound.

Description

Enameled wire manufacturing and processing technology

Technical Field

The invention relates to the technical field of enameled wire manufacturing, in particular to an enameled wire manufacturing and processing technology.

Background

The enameled wire is a main variety of winding wires and consists of a conductor and an insulating layer, a bare wire is annealed and softened and then is subjected to painting and baking for multiple times, but the product which meets the standard requirements and also meets the requirements of customers is not easy to produce, and is influenced by factors such as raw material quality, process parameters, production equipment, environment and the like, so that the quality characteristics of various enameled wires are different, but the enameled wires have four properties of mechanical property, chemical property, electrical property and thermal property, and the existing enameled wires still have certain defects in licensing.

The existing enameled wire has the following problems in the manufacturing process: a, after the existing enameled wire is annealed and softened, the enameled wire is heated, the temperature of the enameled wire is increased, and for the purpose of normally carrying out subsequent operation, the common enameled wire is cooled to room temperature and then is operated, so that the time is greatly wasted, and the working efficiency is low; b: the existing enameled wire is wound, the phenomenon of winding material accumulation often occurs, so that the winding amount of the winding post is reduced, and the winding post is overstaffed and affects the appearance after the enameled wire is wound.

In order to make up the defects of the prior art, the invention provides a manufacturing, processing and treating process of an enameled wire.

Disclosure of Invention

The technical scheme adopted by the invention to solve the technical problem is as follows: the utility model provides an enameled wire makes processing technology, mainly makes the cooperation of heat dissipation guide processing system by an enameled wire and accomplishes, and this enameled wire makes heat dissipation guide processing system includes mounting bracket, heat dissipation external member and coil stock external member, and the mounting bracket is inside to have set gradually heat dissipation external member and coil stock external member from the past backward, wherein:

the heat dissipation external member comprises a support column, a material guiding plate, a heat dissipation sleeve, a spiral rubber pipe, a water through pipe, a cold water tank, a water suction pump and a water supply pipe, wherein the support column is uniformly arranged on the inner wall of the mounting frame in a welding mode, the material guiding plate is arranged on the support column, a horn-shaped through groove A is formed in the material guiding plate, the heat dissipation sleeve is sleeved on the outer side of the material guiding plate and made of rubber, cooling liquid is filled in the heat dissipation sleeve, the spiral rubber pipe is arranged in the heat dissipation sleeve, the spiral rubber pipe is wound on the outer side of the material guiding plate, the water through pipe is arranged at the outlet of the spiral rubber pipe and connected with the cold water tank, the cold water tank is fixedly arranged on the mounting frame, the water suction pump is arranged on the side wall of the cold water tank, the water supply pipe is arranged on the water outlet end of the water suction pump, the suction pump starts to work to drive cold water in the cold water tank to move inside the spiral rubber pipe, and then heat is transferred out in a water flow movement mode, so that the purpose of heat dissipation is achieved.

The coil stock kit comprises a buoyancy lifting barrel, a buoyancy lifting mechanism, a buoyancy lifting bottom plate, a motor, a coil stock plate, a rotating column, a coil stock column, a clamping block and radiating blades, wherein the buoyancy lifting barrel is installed on the inner wall of an installation frame in a welding mode, sliding chutes B are symmetrically arranged on the inner wall of the buoyancy lifting barrel, the buoyancy lifting mechanism is arranged inside the buoyancy lifting barrel, the buoyancy lifting bottom plate is installed inside the buoyancy lifting barrel in a sliding connection mode, the motor is installed on the buoyancy lifting bottom plate, the coil stock plate is fixedly installed on an output shaft of the motor, an annular sliding chute is arranged on the lower end face of the coil stock plate, the rotating columns are arranged inside the annular sliding chute in a sliding connection mode, the number of the rotating columns is four, the rotating columns are installed on the buoyancy lifting bottom plate in a welding mode, the coil stock column is installed on the coil stock plate, coil stock spiral teeth matched with an enameled wire are arranged on the outer surface of the coil stock column, radiating blade is installed to the batching post upper end, and the during operation is artifical with the enameled wire insert to the card material piece in, the inside buoyancy lift mechanism of back buoyancy lift bucket begins work, drives buoyancy lift bottom plate up-and-down motion, and a motor begins work simultaneously, drives the batching board and rotates, and then drives the batching post and rotate and receive the material operation.

The manufacturing, processing and treating process of the enameled wire specifically comprises the following steps:

s1, feeding: manually penetrating the enameled wire through the material guiding plate and inserting the enameled wire into the material clamping block to achieve the purpose of loading;

s2, heat dissipation and cooling: after the feeding operation is finished, the water suction pump starts to work, cold water in the cold water tank is conveyed to the spiral rubber pipe inside the heat dissipation sleeve through the water conveying pipe and the water through pipe to flow, and the heat of the enameled wire is transferred away through the flowing action of the cooling liquid, so that the purpose of heat dissipation of the enameled wire is achieved;

s3, receiving: after the heat dissipation operation is finished, the buoyancy lifting mechanism in the buoyancy lifting barrel works to drive the buoyancy lifting bottom plate to reciprocate up and down along the buoyancy lifting barrel, and meanwhile, the first motor works to rotate the coiling plate so as to drive the coiling column to rotate, so that the material collecting purpose is achieved;

s4, repeating the operation: and repeating the steps S1 to S3, and continuously carrying out heat dissipation collection operation on the enameled wire.

As a preferred technical scheme, the horn-shaped through groove A of the material guiding plate consists of a linear through groove C and a fan-shaped through groove D, the linear through groove C is located at the front end, spherical balls capable of moving freely are uniformly arranged on the side wall of the linear through groove, the fan-shaped through groove D is provided with a material blocking plate in a rotating connection mode, and the material blocking plate and the material guiding plate are connected together through a spring.

As a preferred technical scheme, material passing grooves E matched with the enameled wires for use are uniformly formed in the material baffle plate, and cooling liquid is filled in the material baffle plate which is of a hollow structure.

As a preferred technical scheme of the invention, the buoyancy lifting mechanism comprises a second motor, an output rotating shaft, a driving half gear, a reciprocating frame, a sliding column, connecting blocks and an elastic spring, wherein the second motor is arranged on the outer wall of the buoyancy lifting barrel through a motor base, the output rotating shaft is arranged on an output shaft of the second motor, the output rotating shaft is connected with the inner wall of the buoyancy lifting barrel in a bearing connection mode, the driving half gear is arranged on the output rotating shaft, the reciprocating frame which is matched with the driving half gear is arranged on the outer side of the driving half gear, the sliding column which is matched with the sliding chute B for use is symmetrically arranged on the side wall of the reciprocating frame in a welding mode, the connecting blocks are symmetrically arranged at the left end and the right end of the reciprocating frame, the elastic spring is arranged on the connecting blocks, the elastic spring is connected with the bottom surface of the buoyancy lifting barrel, when the second motor works, thereby driving the reciprocating frame to reciprocate up and down in the buoyancy lifting barrel under the meshing action of the gears.

As a preferred technical scheme of the invention, the material clamping block comprises a material clamping seat, a displacement column, an outer ejection push rod, a deflection plate, a deflection shaft, an inner displacement rod and a wrapping plate, the material clamping seat is connected with the inner wall of the material clamping block through a spring, the displacement column is arranged on the lower end surface of the material clamping seat in a welding mode, the outer ejection push rods are symmetrically arranged at the left end and the right end of the displacement column, the deflection plate is abutted against the outer side of the outer ejection push rod, the deflection plate is fixedly arranged on the deflection shaft, the deflection shaft is arranged on the inner wall of the material clamping block through a bearing connection mode, the inner displacement rod is abutted against the inner displacement rod, the wrapping plate is fixedly arranged on the inner displacement rod, the cross section of the wrapping plate is of an arc structure, when the material clamping seat is pressed to drive the displacement column to move downwards so as to drive the outer ejection push rod to move like the outer side, thereby driving the deflection plate to rotate, and further drive the, thereby achieving the purpose of material blocking.

As a preferred technical scheme of the invention, the inner wall of the wrapping and clamping plate is provided with a material pushing arc plate in a sliding connection mode, the material pushing arc plate is uniformly provided with material pushing blocks in a welding mode, the inner side of the lower end of the material pushing block is abutted against a material clamping column, the material clamping column is installed on the inner wall of the wrapping and clamping plate in a sliding connection mode, the material clamping column is symmetrically provided with material pushing auxiliary plates in a rotating connection mode, a spring is connected between the material pushing auxiliary plates and the material clamping column, the outer wall of the material pushing auxiliary plates is provided with spherical balls in a bearing connection mode, when the wrapping and clamping plate is in contact with each other in work, the material pushing arc plate is pushed to move, the material pushing blocks are driven to move to eject the material clamping column, and the material clamping column is opened after being ejected, so.

Compared with the prior art, the invention has the following advantages:

1. the invention can solve the following problems of the prior enameled wire during manufacturing: a, after the existing enameled wire is annealed and softened, the enameled wire is heated, the temperature of the enameled wire is increased, and for the purpose of normally carrying out subsequent operation, the common enameled wire is cooled to room temperature and then is operated, so that the time is greatly wasted, and the working efficiency is low; b: the existing enameled wire is wound, the phenomenon of winding material accumulation often occurs, so that the winding amount of the winding post is reduced, and the winding post is overstaffed and affects the appearance after the enameled wire is wound.

2. According to the invention, the heat dissipation external member is designed, after the enameled wire passes through the material guiding plate, the water suction pump starts to work, cold water in the cold water tank is conveyed to the spiral rubber pipe inside the heat dissipation sleeve through the water conveying pipe and the water conveying pipe to form flow, and the heat of the enameled wire is transferred away under the flowing action of the cooling liquid, so that the heat dissipation purpose of the enameled wire is achieved, meanwhile, the enameled wire can be subjected to coiling operation while heat dissipation is realized through the operation of the coiling external member, the working period is greatly reduced, and the working efficiency is improved.

3. According to the invention, the floating mechanism is designed, the output rotating shaft is driven to rotate through the work of the second motor, and then the driving half gear is driven to rotate, so that the reciprocating frame is driven to reciprocate up and down, meanwhile, the coiling plate rotates through the work of the first motor, and further the coiling column is driven to rotate, so that the purpose of reciprocating material collection is achieved, the problem that the enameled wire is wound at the same position for a long time is avoided, and the enameled wire is wound through the vertical reciprocating motion of the coiling column, so that the uniformity during winding is ensured, the attractiveness of a finished product is improved, more enameled wires can be wound, and the cost is saved.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a process flow diagram of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a side schematic view of the present invention;

FIG. 4 is a schematic cross-sectional view A-A of FIG. 3 of the present invention;

FIG. 5 is a schematic cross-sectional view of the area B of FIG. 3 in accordance with the present invention;

FIG. 6 is a schematic cross-sectional view B-B of FIG. 3 of the present invention;

FIG. 7 is a schematic cross-sectional view of area A of FIG. 3 in accordance with the present invention;

FIG. 8 is a cross-sectional schematic view of C-C of FIG. 7 of the present invention;

FIG. 9 is a schematic cross-sectional view of the area C of FIG. 8 in accordance with the present invention;

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained with reference to fig. 1 to 9.

The utility model provides an enameled wire manufacturing processing technology, mainly by an enameled wire manufacturing heat dissipation guide processing system cooperation completion, this enameled wire manufacturing heat dissipation guide processing system includes mounting bracket 1, heat dissipation external member 2 and coil stock external member 3, and mounting bracket 1 is inside to have set gradually heat dissipation cover 23 in the past backward and coil stock external member 3, wherein:

the heat dissipation external member 2 comprises a support column 21, a material guiding plate 22, a heat dissipation sleeve 23, a spiral rubber pipe 24, a water through pipe 25, a cold water tank 26, a water suction pump and a water feeding pipe 27, wherein the support column 21 is uniformly installed on the inner wall of the installation frame 1 in a welding mode, the material guiding plate 22 is installed on the support column 21, a horn-shaped through groove A is formed in the material guiding plate 22, the heat dissipation sleeve 23 is sleeved outside the material guiding plate 22, the heat dissipation sleeve 23 is made of rubber, cooling liquid is filled in the heat dissipation sleeve 23, the spiral rubber pipe 24 is arranged inside the heat dissipation sleeve 23, the spiral rubber pipe 24 is wound outside the material guiding plate 22, the water through pipe 25 is installed at the outlet of the spiral rubber pipe 24, the water through pipe 25 is connected with the cold water tank 26, the cold water tank 26 is fixedly installed on the installation frame 1, the water suction pump is installed on the side wall of the cold water tank 26, the water, the cooling water tank 26 is filled with cooling liquid, during specific work, after the enameled wire passes through the material guiding plate 22 manually, the water suction pump starts to work, cold water in the cooling water tank 26 is conveyed to the spiral rubber tube 24 inside the heat dissipation sleeve 23 through the water conveying tube 27 and the water through tube 25 to form flow, and heat of the enameled wire is transferred away through the flowing effect of the cooling liquid, so that the purpose of heat dissipation of the enameled wire is achieved.

The horn-shaped through groove A of the guide plate 22 is composed of a straight line through groove C and a fan-shaped through groove D, the straight line through groove C is located at the front end, a spherical ball capable of moving freely is evenly arranged on the side wall of the straight line through groove, a stop plate 221 is arranged on the fan-shaped through groove D in a rotating connection mode, and the stop plate 221 is connected with the guide plate 22 through a spring.

The material blocking plate 221 is uniformly provided with a material passing groove E which is matched with the enameled wire for use, and the material blocking plate 221 is of a hollow structure and is filled with cooling liquid.

The coil stock kit 3 comprises a buoyancy lifting barrel 31, a buoyancy lifting mechanism 32, a buoyancy lifting bottom plate 33, a first motor, a coil stock plate 34, a rotating column 35, a coil stock column 36, a clamping block 37 and radiating blades 38, wherein the buoyancy lifting barrel 31 is installed on the inner wall of the installation frame 1 in a welding mode, sliding chutes B are symmetrically arranged on the inner wall of the buoyancy lifting barrel 31, the buoyancy lifting mechanism 32 is arranged inside the buoyancy lifting barrel 31, the buoyancy lifting bottom plate 33 is installed inside the buoyancy lifting barrel 31 in a sliding connection mode, the first motor is installed on the buoyancy lifting bottom plate 33, a coil stock plate 34 is fixedly installed on an output shaft of the first motor, an annular sliding chute is arranged on the lower end face of the coil stock plate 34, the rotating columns 35 are arranged inside the annular sliding chute in a sliding connection mode, the number of the rotating columns 35 is four, the rotating columns 35 are installed on the buoyancy lifting bottom plate 33 in a welding mode, the coil stock column 36 is installed on the coil stock plate 34, coil stock helical teeth matched with enameled wires for use are arranged, install the card material piece 37 on the batching post 36, radiator blade 38 is installed to batching post 36 upper end, concrete during operation, artifical enameled wire after will dispelling the heat is worn to card material piece 37 in, card material piece 37 is fixed the enameled wire, the inside buoyancy lift mechanism 32 work of back buoyancy lift bucket 31 drives buoyancy lift bottom plate 33 and carries out reciprocating motion along buoyancy lift bucket 31, a motor work simultaneously, batching board 34 rotates, and then drive batching post 36 and rotate, thereby reach the mesh of receiving the material, drive radiator blade 38 to rotate because of a motor work simultaneously, and then reach the radiating purpose of secondary.

The floating mechanism 32 comprises a second motor, an output rotating shaft 321, a driving half gear 322, a reciprocating frame 323, a sliding column 324, a connecting block 325 and an elastic spring 326, the second motor is arranged on the outer wall of the floating barrel 31 through a motor base, the output rotating shaft 321 is arranged on the output shaft of the second motor, the output rotating shaft 321 is connected with the inner wall of the floating barrel 31 in a bearing connection mode, the driving half gear 322 is arranged on the output rotating shaft 321, the reciprocating frame 323 which is mutually matched with the driving half gear 322 is arranged on the outer side of the driving half gear 322, the sliding columns 324 which are mutually matched with the sliding grooves B are symmetrically arranged on the side wall of the reciprocating frame 323 in a welding mode, the connecting block 325 is symmetrically arranged at the left end and the right end of the reciprocating frame 323, the elastic spring 326 is arranged on the connecting block 325, the elastic spring 326 is connected with the bottom surface of the floating barrel 31, when, and then drives the driving half gear 322 to rotate, thereby driving the reciprocating frame 323 to reciprocate up and down, and achieving the purpose of reciprocating material receiving.

The material clamping block 37 comprises a material clamping seat 371, a displacement column 372, an outer pushing rod 373, a deflection plate 374, a deflection shaft 375, an inner moving rod 376 and a wrapping plate 377, the material clamping seat 371 is connected with the inner wall of the material clamping block 37 in a spring connection mode, the displacement column 372 is installed on the lower end face of the material clamping seat 371 in a welding mode, the outer pushing rod 373 is symmetrically arranged at the left end and the right end of the displacement column 372, the deflection plate 374 is abutted to the outer side of the outer pushing rod 373, the deflection plate 374 is fixedly installed on the deflection shaft 375, the deflection shaft 375 is installed on the inner wall of the material clamping block 37 in a bearing connection mode, the inner side of the deflection plate 374 is abutted to the inner moving rod 376, the wrapping plate 377 is fixedly installed on the inner moving rod 376, the cross section of the wrapping plate 377 is of an arc-shaped structure, during specific work, an enameled wire is manually inserted into the material clamping seat 371 to drive the displacement column 372 to move, and further drive the outer pushing rod 373 to move, and push the deflection, the clamping plate 377 is driven to clamp the enameled wire.

The inner wall of the wrapping clamp plate 377 is provided with a material pushing arc plate 3771 in a sliding connection mode, the material pushing arc plate 3771 is uniformly provided with material pushing blocks 3772 in a welding mode, the inner side of the lower end of each material pushing block 3772 abuts against a material clamping column 3773, each material clamping column 3773 is installed on the inner wall of the wrapping clamp plate 377 in a sliding connection mode, material abutting auxiliary plates 3774 are symmetrically arranged on the material clamping columns 3773 in a rotating connection mode, springs are connected between the material abutting auxiliary plates 3774 and the material clamping columns 3773, spherical balls are arranged on the outer walls of the material abutting auxiliary plates 3774 in a bearing connection mode, when the wrapping clamp plate 377 is in contact during specific work, the material pushing arc plates 3771 move to drive the material pushing blocks 3772 to move to further drive the material clamping columns 3773 to eject, and the material abutting auxiliary plates 3774 eject to abut against enameled wires, so that the purpose of locking the enameled wires is.

s1, feeding: manually penetrating the enameled wire through the material guiding plate 22 and inserting the enameled wire into the material clamping block 37 to achieve the purpose of loading;

s2, heat dissipation and cooling: after the feeding operation is finished, the water suction pump starts to work, cold water in the cold water tank 26 is conveyed to the spiral rubber tube 24 inside the heat dissipation sleeve 23 through the water conveying tube 27 and the water through tube 25 to flow, and heat of the enameled wire is transferred away under the flowing action of cooling liquid, so that the purpose of heat dissipation of the enameled wire is achieved;

s3, receiving: after the heat dissipation operation is completed, the buoyancy lifting mechanism 32 in the buoyancy lifting barrel 31 works to drive the buoyancy lifting bottom plate 33 to reciprocate up and down along the buoyancy lifting barrel 31, and meanwhile, the first motor works to drive the material coiling plate 34 to rotate so as to drive the material coiling column 36 to rotate, so that the material collection purpose is achieved;

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an enameled wire manufacturing processing technology, mainly by the cooperation of enameled wire manufacturing heat dissipation guide processing system and accomplish, this enameled wire manufacturing heat dissipation guide processing system includes mounting bracket (1), heat dissipation external member (2) and coil stock external member (3), its characterized in that: a heat dissipation external member (2) and a coil external member (3) are sequentially arranged in the mounting rack (1) from front to back;

the heat dissipation external member (2) comprises a support column (21), a material guiding plate (22), a heat dissipation sleeve (23), a spiral rubber pipe (24), a water through pipe (25), a cold water tank (26), a water suction pump and a water conveying pipe (27), wherein the support column (21) is uniformly installed on the inner wall of the installation frame (1) in a welding mode, the material guiding plate (22) is installed on the support column (21), a horn-shaped through groove A is formed in the material guiding plate (22), the heat dissipation sleeve (23) is sleeved on the outer side of the material guiding plate (22), the heat dissipation sleeve (23) is made of rubber materials, cooling liquid is filled in the heat dissipation sleeve (23), the spiral rubber pipe (24) is arranged in the heat dissipation sleeve (23), the spiral rubber pipe (24) is wound on the outer side of the material guiding plate (22), the water through pipe (25) is installed at the outlet of the spiral rubber pipe (24), and, the cold water tank (26) is fixedly arranged on the mounting frame (1), a water suction pump is arranged on the side wall of the cold water tank (26), a water delivery pipe (27) is arranged at the water outlet end of the water suction pump, the water delivery pipe (27) is connected with the water inlet end of the spiral rubber pipe (24), and cooling liquid is filled in the cold water tank (26);

the coil stock kit (3) comprises a floating barrel (31), a floating mechanism (32), a floating bottom plate (33), a first motor, a coil stock plate (34), a rotating column (35), a coil stock column (36), a clamping block (37) and radiating blades (38), wherein the floating barrel (31) is arranged on the inner wall of the mounting frame (1) in a welding mode, sliding chutes B are symmetrically arranged on the inner wall of the floating barrel (31), the floating mechanism (32) is arranged inside the floating barrel (31), the floating bottom plate (33) is arranged inside the floating barrel (31) in a sliding connection mode, the first motor is arranged on the floating bottom plate (33), the coil stock plate (34) is fixedly arranged on an output shaft of the first motor, an annular sliding chute is arranged on the lower end face of the coil stock plate (34), the rotating column (35) is arranged inside the annular sliding chute in a sliding connection mode, and the number of the rotating columns (35) is four, the rotary column (35) is installed on the floating bottom plate (33) in a welding mode, the coiling plate (34) is provided with a coiling column (36), the outer surface of the coiling column (36) is provided with coiling spiral teeth matched with the enameled wire for use, the coiling column (36) is provided with a clamping block (37), and the upper end of the coiling column (36) is provided with a radiating blade (38);

s1, feeding: the enameled wire is manually inserted into the clamping block (37) after passing through the material guiding plate (22), so that the purpose of loading is achieved;

s2, heat dissipation and cooling: after the feeding operation is finished, the water suction pump starts to work, cold water in the cold water tank (26) is conveyed into the spiral rubber pipe (24) inside the heat dissipation sleeve (23) through the water conveying pipe (27) and the water through pipe (25) to flow, and the heat of the enameled wire is transferred away through the flowing action of cooling liquid, so that the purpose of heat dissipation of the enameled wire is achieved;

s3, receiving: after the heat dissipation operation is finished, a floating mechanism (32) in the floating barrel (31) works to drive a floating bottom plate (33) to reciprocate up and down along the floating barrel (31), and meanwhile, a motor works to drive a coiling plate (34) to rotate so as to drive a coiling column (36) to rotate, so that the purpose of material collection is achieved;

2. The enameled wire manufacturing and processing technology as claimed in claim 1, wherein: fuse board (22) loudspeaker type leads to groove A and leads to groove C and fan-shaped groove D by the straight line and constitute, and straight line leads to groove C and is located the front end, and straight line leads to evenly to be provided with the spherical ball that can free motion on the groove lateral wall, and fan-shaped groove D goes up to be provided with striker plate (221) through the mode of rotating the connection, and striker plate (221) and lead and link together through the spring coupling between the flitch (22).

3. The enameled wire manufacturing and processing technology as claimed in claim 2, wherein: the material blocking plate (221) is uniformly provided with a material passing groove E which is matched with the enameled wire for use, and the material blocking plate (221) is of a hollow structure and is filled with cooling liquid.

4. The enameled wire manufacturing and processing technology as claimed in claim 1, wherein: the buoyancy lifting mechanism (32) comprises a second motor, an output rotating shaft (321), a driving half gear (322), a reciprocating frame (323), a sliding column (324), a connecting block (325) and an elastic spring (326), wherein the second motor is arranged on the outer wall of the buoyancy lifting barrel (31) through a motor base, the output rotating shaft (321) is arranged on an output shaft of the second motor, the output rotating shaft (321) is connected with the inner wall of the buoyancy lifting barrel (31) in a bearing connection mode, the driving half gear (322) is arranged on the output rotating shaft (321), the reciprocating frame (323) which is matched with the driving half gear (322) is arranged on the outer side of the driving half gear (322), the sliding column (324) which is matched with the sliding groove B in a welding mode is symmetrically arranged on the side wall of the reciprocating frame (323), the connecting block (325) is symmetrically arranged at the left end and the right end of the reciprocating frame (323, the elastic spring (326) is connected with the bottom surface of the floating barrel (31).

5. The enameled wire manufacturing and processing technology as claimed in claim 1, wherein: the clamping block (37) comprises a clamping block seat (371), a displacement column (372), an outer pushing rod (373), a deflection plate (374), a deflection shaft (375), an inner moving rod (376) and a wrapping plate (377), card material seat (371) are in the same place through spring coupling's mode and card material piece (37) inner wall connection, install displacement post (372) through the welded mode on the terminal surface under card material seat (371), both ends symmetry is provided with outer push rod (373) about displacement post (372), outer push rod (373) outside is supported and is leaned on there being deflector plate (374), deflector plate (374) fixed mounting is on deflection shaft (375), the mode that deflection shaft (375) are connected through the bearing is installed on card material piece (37) inner wall, deflector plate (374) inboard is supported and is leaned on there being interior pole (376) that moves, fixed mounting has package splint (377) on interior pole (376), package splint (377) cross-section is the arc structure.

6. The enameled wire manufacturing and processing technology according to claim 5, characterized in that: the material pushing arc plate (3771) is arranged on the inner wall of the bag clamping plate (377) in a sliding connection mode, a material pushing block (3772) is evenly arranged on the material pushing arc plate (3771) in a welding mode, the inner side of the lower end of the material pushing block (3772) is abutted against a material clamping column (3773), the material clamping column (3773) is installed on the inner wall of the bag clamping plate (377) in a sliding connection mode, material abutting auxiliary plates (3774) are symmetrically arranged on the material clamping column (3773) in a rotating connection mode, springs are connected between the material abutting auxiliary plates (3774) and the material clamping column (3773), and spherical balls are arranged on the outer wall of the material abutting auxiliary plates (3774) in a bearing connection mode.