CN220033641U

CN220033641U - Winding and rolling mechanism for enameled wire production

Info

Publication number: CN220033641U
Application number: CN202320856526.4U
Authority: CN
Inventors: 姚素成
Original assignee: Shengmiao Changzhou Intelligent Manufacturing Co ltd
Current assignee: Shengmiao Changzhou Intelligent Manufacturing Co ltd
Priority date: 2023-04-18
Filing date: 2023-04-18
Publication date: 2023-11-17
Anticipated expiration: 2033-04-18

Abstract

The utility model provides a winding and rolling mechanism for enameled wire production, which comprises a mounting box body, wherein a wire wheel branching mechanism is arranged at the upper part of the rear side of the mounting box body, two wire wheel movable grooves are formed in the middle of the rear side of the mounting box body, two winding motors are movably arranged in the two wire wheel movable grooves through a wire arranging mechanism, a left winding wheel and a right winding wheel are respectively arranged at the driving ends of the two winding motors backwards, a winding adjusting mechanism is movably arranged on the wire wheel branching mechanism, a scissor device is arranged at the lower position between the two wire wheel movable grooves on the rear side surface of the mounting box body, and a second wire wheel is arranged above the left side of the winding adjusting mechanism through a positioning block; according to the utility model, the wire is sequentially wound on the reels at the left station and the right station by the wire separating mechanism of the reel, the wire adjusting mechanism of the reel, the two wire guiding wheels, the scissor device and the wire catcher, and the left reel and the right reel enable the wire to be uniformly arranged in the axial direction of the reel through the wire arranging mechanism.

Description

Winding and rolling mechanism for enameled wire production

Technical Field

The utility model belongs to the technical field of enameled wire production equipment, and particularly relates to a winding device for enameled wire production, in particular to a winding and coiling mechanism for enameled wire production.

Background

Enameled wire is a main variety of winding wire, which is formed by two parts of conductor and insulating layer, and bare wire is annealed and softened, painted for many times and baked. However, it is not easy to produce a product meeting both standard requirements and customer requirements, and the product is affected by factors such as raw material quality, process parameters, production equipment, environment and the like, so that the quality characteristics of various enamelled wires are different, but the enamelled wires have four properties of mechanical property, chemical property, electrical property and thermal property.

The existing enameled wire is often wound and rolled by a reel in the production process or after the production is finished, and is used for transportation and storage, so that the effective proceeding of the next processing step is facilitated; however, the existing winding device can only install winding on a single winding wheel, the frequency of detaching and installing the winding wheel is high, and the production efficiency is greatly reduced.

Patent application number CN202121251670.2, the contents of which are: the utility model provides a multifunctional enameled wire winding device which comprises a base, an upper seat, a winding roller, a tension pulley, friction pulleys, a rotating shaft and a motor, wherein the upper seat is arranged on the base through a weight sensor at the bottom, the winding roller, the tension pulley and the friction pulleys are all arranged in the upper seat, the winding roller is driven by the motor to rotate, two ends of the tension pulley are fixed on the inner side of the upper seat, the friction pulleys are fixed on the rotating shaft, two ends of the rotating shaft are rotatably connected with a meter, the meter is slidably arranged in sliding grooves on two sides of the upper seat, springs are arranged in the sliding grooves, enameled wires are wound on the winding roller after bypassing the friction pulleys and the tension pulley in sequence, and the springs enable the meter to generate a trend of moving towards the enameled wire. The multifunctional enameled wire winding device provided by the utility model realizes the measurement of the length and the weight of the wound enameled wire, ensures that the specification of each winding of enameled wire is consistent, and can obtain whether the quality of the enameled wire meets the requirement or not through the length and the weight data.

Although the length and the weight of the enameled wire are measured by the meter counter, the uniformity of the winding displacement on the winding wheel cannot be controlled, and only a single winding wire can be used, so that the winding replacement frequency is high, and the production efficiency is reduced.

Disclosure of Invention

The utility model aims to solve the problems in the background art, and provides a winding and rolling mechanism for enameled wire production.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides a wire winding and rolling mechanism for enameled wire production, includes the installation box, install box backplate rear side upper portion and install reel separated time mechanism, it has two reel movable slots to open in the middle of the installation box backplate rear side, two through winding displacement mechanism movable mounting two motors in the reel movable slot the reel motor drive end is towards the rear and installs left reel and right reel respectively, movable mounting has wire winding adjustment mechanism on the reel separated time mechanism, two lead wheels of movable mounting below the wire winding adjustment mechanism, install box backplate trailing flank and be located the below between two reel movable slots and install the scissors device, wire winding adjustment mechanism left side top is installed through the locating piece second lead wheel, install the box in the installation box backplate left side, first lead wheel is installed to the box rear side upper left side, the fixed speed motor is installed through fixed speed motor rear side upper portion, constant tension reel below the box backplate rear side are installed in proper order, are walked around between wire reel, and the wire winding reel top below the constant speed reel.

Preferably, the scissors device comprises a scissors support, a scissors supporting plate, a scissors driving cylinder, a telescopic scissors blade and a fixed scissors blade, wherein the scissors support is a right-angle frame, one side of the right angle of the scissors support is fixed on the rear side of the back plate of the mounting box body in a threaded manner, the driving end of the scissors driving cylinder is fixed on the other side of the right angle of the scissors support upwards, the scissors supporting plate is vertically fixed on the rear side of the back plate of the mounting box body, the middle sections of the fixed scissors blade and the telescopic scissors blade are hinged on the right side of the scissors supporting plate, the fixed scissors blade is fixed on the right side of the scissors supporting plate, the side surface of the upper end of the telescopic column of the scissors driving cylinder is hinged on the front end of the telescopic scissors blade through a rotating shaft, and the scissors driving cylinder drives the telescopic scissors blade to be hinged and sheared at the position of the fixed scissors blade.

Preferably, the scissors device further comprises a wire pushing device, the wire pushing device comprises a wire pushing installation frame, a wire pushing plate, a push plate sliding block and a screw rod mechanism driven by a sliding motor, the front end of the wire pushing installation frame is vertically fixed below the scissors support at the rear side of the back plate of the installation box body, the screw rod mechanism driven by the sliding motor is installed on the upper surface of the wire pushing installation frame, the wire pushing plate moves back and forth on the screw rod mechanism driven by the sliding motor through the movable installation of the push plate sliding block, and the wire pushing plate moves back and forth on the right side of the telescopic scissors blade.

Preferably, the front end of the left reel is also provided with a wire catcher, the wire catcher comprises a wire catching disc and a wire catching clamp, the wire catching disc is fixedly arranged at the front end of the left reel and is matched with the left reel to synchronously rotate, the edge of the rear end of the wire catching disc is provided with an inverted inclined surface, the wire catching clamp is a Z-shaped clamping plate, the wire catching clamp is fixed on the inverted inclined surface of the wire catching disc, and the clamping opening of the wire catching clamp faces to the left.

Preferably, the winding displacement mechanism comprises a winding displacement mounting plate, two guide rail mechanisms, a winding displacement supporting plate and a winding displacement motor driven screw rod mechanism, wherein the winding displacement supporting plate is vertically arranged on the front side surface of a backboard of an installation box body, the two guide rail mechanisms are respectively arranged at the left edge and the right edge of the upper surface of the winding displacement supporting plate, the winding displacement motor driven screw rod mechanism is arranged at the middle of the winding displacement supporting plate, the winding displacement mounting plate moves forwards and backwards above the winding displacement supporting plate through the winding displacement motor driven screw rod mechanism and the two guide rail mechanisms, and the two winding motors are respectively fixedly arranged at the left side and the right side of the winding displacement mounting plate through two motor brackets.

Preferably, the wire wheel wire distributing mechanism comprises a wire distributing slide block and a wire distributing motor driven screw rod mechanism, the wire distributing motor driven screw rod mechanism is installed on the upper portion of the rear side face of the backboard of the installation box body in a left-right direction, and the wire winding adjusting mechanism is movably installed on the wire distributing motor driven screw rod mechanism through the wire distributing slide block to move left and right.

Preferably, the wire winding adjustment mechanism comprises a wire wheel adjustment plate and a wire winding adjustment motor driven screw rod mechanism, wherein the wire wheel adjustment plate is installed on the wire winding adjustment motor driven screw rod mechanism to move up and down, and the two wire wheels are respectively installed on the left side and the right side of the lower end of the wire wheel adjustment plate.

Preferably, two first proximity switches are installed on the right side of the flat cable support plate in the front-back direction, and the installation space between the two first proximity switches meets the movement space between the left reel and the right reel for axial winding.

Preferably, the push wire mounting frame is located push wire slide side-mounting and has two second proximity switches, and two the installation interval of second proximity switch satisfies push wire slider drive push wire board and pushes away the removal interval that the flexible scissors blade was sheared with the wire rod.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the utility model, through the wire separating mechanism of the wire reel, the wire reel adjusting mechanism, the two wire reels, the scissor device and the wire catcher, the transposition winding and winding of the wire at the station of the left wire reel are realized after the winding and winding of the wire at the station of the right wire reel are completed, and the left wire reel and the right wire reel are driven to synchronously move back and forth through the wire arranging mechanism, so that the wire is uniformly arranged in the axial direction of the left wire reel or the right wire reel, the two wire reels are detached and installed once, the replacement frequency of the wire reels is reduced, and the efficiency of producing the wire reels is improved;

2. according to the utility model, the wire pushing device is matched with the scissors device to realize shearing when the wire is changed from the right reel to the left reel, and the sheared wire is caught and wound on the left reel through the wire catching clamp, so that the accuracy of changing the coil of the left reel is improved.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a schematic view of the rear side of a back plate of a mounting case according to an embodiment of the present utility model;

FIG. 3 is a schematic view of the front side of the back plate of the mounting box according to the embodiment of the utility model;

FIG. 4 is a schematic view of a scissors assembly according to an embodiment of the present utility model;

fig. 5 is a schematic view of a partial structure of a wire catching disc according to an embodiment of the present utility model;

the embodiment of the utility model mainly comprises the following element symbols:

the wire-drawing device comprises a box body-1, a wire wheel movable groove-11, a second wire wheel-12, a wire wheel wire-drawing mechanism-2, a wire-drawing motor driven screw rod mechanism-21, a wire-drawing sliding block-22, a wire-drawing mechanism-3, a wire-drawing mounting plate-31, a guide rail mechanism-32, a wire-drawing motor driven screw rod mechanism-33, a wire-drawing supporting plate-34, a wire-winding motor-4, a left wire wheel-41, a wire catcher-411, a wire catcher disc-412, a wire catcher clamp-413, a right wire wheel-42, a motor support-43, a wire-drawing adjusting mechanism-5, a wire wheel-adjusting motor driven screw rod mechanism-501, a wire wheel adjusting plate-502, a wire wheel-51, a scissor device-6, a scissor support-601, a scissor driving cylinder-602, a scissor supporting plate-603, a telescopic scissor blade-604, a fixed scissor blade-605, a wire pushing device-610, a wire pushing mounting frame-611, a sliding motor driven screw rod mechanism-612, a pushing plate-613, a wire pushing plate-614, a traction box body-7, a first wire wheel-71, a constant tension wheel-72, a constant tension wheel-73, a first proximity switch-8 and a second proximity switch.

Detailed Description

In the description of the present utility model, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1 to 3, a winding and coiling mechanism for enameled wire production comprises a mounting box body 1, a wire wheel branching mechanism 2 is mounted on the upper portion of the rear side of a backboard of the mounting box body 1, two wire wheel movable grooves 11 are formed in the middle of the rear side of the backboard of the mounting box body 1, two winding motors 4 are movably mounted in the wire wheel movable grooves 11 through a wire arranging mechanism 3, a left winding wheel 41 and a right winding wheel 42 are mounted at the driving ends of the winding motors 4 backwards respectively, a winding and adjusting mechanism 5 is movably mounted on the wire wheel branching mechanism 2, two lead wheels 51 are movably mounted below the winding and adjusting mechanism 5, a scissor device 6 is mounted at the lower position between the two wire wheel movable grooves 11 on the rear side of the backboard of the mounting box body 1, a second wire wheel 12 is mounted above the left side of the winding and adjusting mechanism 5 through a positioning block, a first wire wheel 71 is mounted above the left side of the traction box body 7, a tension pulley 71 is mounted above the rear side of the traction box body 1 and the tension pulley 73 and below the first wire wheel 73 and the right wire wheel 73, and the tension pulley 71 is mounted above the tension pulley 73 and below the reel 73 in turn.

According to the utility model, through the wire separating mechanism 2, the wire wheel adjusting mechanism, the two wire wheels 51, the scissor device 6 and the wire catcher 411, the left wire wheel 41 and the right wire wheel 42 are matched to realize transposition wire winding on the station of the left wire wheel 41 after the wire is wound on the station of the right wire wheel 42, and the left wire wheel 41 and the right wire wheel 42 are driven to synchronously move back and forth through the wire arranging mechanism 3, so that the wire is uniformly arranged in the axial direction of the left wire wheel 41 or the right wire wheel 42, the two wire wheels are dismounted and mounted once, the replacement frequency of the wire wheels is reduced, and the efficiency of producing the wire is improved.

As shown in fig. 4, the scissors device 6 includes a scissors support 601, a scissors support 603, a scissors driving cylinder 602, a telescopic scissors blade 604 and a fixed scissors blade 605, the scissors support 601 is a right-angle frame, one right-angle side of the scissors support 601 is fixed on the rear side of the back plate of the mounting box 1 in a threaded manner, the driving end of the scissors driving cylinder 602 is fixed on the other right-angle side of the scissors support 601 upwards, the scissors support 603 is vertically fixed on the rear side of the back plate of the mounting box 1, the middle sections of the fixed scissors blade 605 and the telescopic scissors blade 604 are hinged on the right side of the scissors support 603, the fixed scissors blade 605 is fixed on the right side of the scissors support 603, the upper end side of the telescopic column of the scissors driving cylinder 602 is hinged on the front end of the telescopic scissors blade 604 through a rotating shaft, and the scissors driving cylinder 602 drives the telescopic scissors blade 604 to be hinged and sheared at the fixed scissors blade 605.

The scissors device 6 further comprises a wire pushing device 610, the wire pushing device 610 comprises a wire pushing installation frame 611, a wire pushing plate 614, a pushing plate slider 613 and a sliding motor driven screw rod mechanism 612, the front end of the wire pushing installation frame 611 is vertically fixed below the scissors support 601 on the rear side face of the backboard of the installation box body 1, the sliding motor driven screw rod mechanism 612 is installed on the upper surface of the wire pushing installation frame 611, the wire pushing plate 614 is movably installed on the sliding motor driven screw rod mechanism 612 through the pushing plate slider 613 to move forwards and backwards, and the wire pushing plate 614 moves forwards and backwards on the right side of the telescopic scissors blade 604.

As shown in fig. 5, the front end of the left reel 41 is further provided with a wire catcher 411, the wire catcher 411 includes a wire catcher 412 and a wire catcher 413, the wire catcher 412 is fixedly mounted at the front end of the left reel 41 and is synchronously rotated in cooperation with the left reel 41, an inverted slope is provided at the edge of the rear end of the wire catcher, the wire catcher 413 is a Z-shaped clamping plate, the wire catcher 413 is fixed on the inverted slope of the wire catcher, and the clamping opening of the wire catcher 413 faces to the left.

According to the utility model, the wire pushing device 610 is matched with the scissors device 6 to realize shearing when the wire is reversed from the right reel 42 to the left reel 41, and the sheared wire is caught and wound on the left reel 41 through the wire catching clamp 413, so that the accuracy of reel replacement of the left reel 41 is improved.

The wire arranging mechanism 3 comprises a wire arranging mounting plate 31, two guide rail mechanisms 32, a wire arranging supporting plate 34 and a wire arranging motor driven screw rod mechanism 33, the wire arranging supporting plate 34 is vertically arranged on the front side surface of a backboard of the mounting box body 1, the two guide rail mechanisms 32 are respectively arranged at the left edge and the right edge of the upper surface of the wire arranging supporting plate 34, the wire arranging motor driven screw rod mechanism 33 is arranged in the middle of the wire arranging supporting plate 34, the wire arranging mounting plate 31 moves forwards and backwards above the wire arranging supporting plate 34 through the wire arranging motor driven screw rod mechanism 33 and the two guide rail mechanisms 32, the two wire winding motors 4 are respectively fixedly arranged at the left side and the right side of the wire arranging mounting plate 31 through two motor brackets 43, and the left wire winding wheel 41 and the right wire winding wheel 42 realize uniform wire winding and arranging of wires on the left wire winding wheel 41 or the right wire winding wheel 42 through the front-back movement of the wire arranging mounting plate 31 on the wire arranging supporting plate 34.

The wire wheel branching mechanism 2 comprises a branching slide block 22 and a branching motor-driven screw rod mechanism 21, the branching motor-driven screw rod mechanism 21 is installed on the upper portion of the rear side face of the backboard of the installation box body 1 in the left-right direction, and the wire winding adjusting mechanism 5 is movably installed on the branching motor-driven screw rod mechanism 21 through the branching slide block 22 to move left-right.

The winding adjusting mechanism 5 comprises a reel adjusting plate 502 and a lead screw mechanism 501 driven by a winding adjusting motor, the reel adjusting plate 502 is installed on the lead screw mechanism 501 driven by the winding adjusting motor to move up and down, two lead wheels 51 are respectively installed on the left side and the right side of the lower end of the reel adjusting plate 502, so that proper and stable radial distance between the two lead wheels 51 and the left reel 41 or the right reel 42 is kept when winding and reel changing are facilitated, the tension is uniform when the lead wheels 51 guide winding to the reels, and the radial thickness of the winding is ensured to be kept stable.

Two first proximity switches 8 are installed in the front-back direction on the right side of the winding displacement supporting plate 34, the installation space between the two first proximity switches 8 meets the moving space between the left winding wheel 41 and the right winding wheel 42 for axial winding, the two first proximity switches 8 ensure that the winding displacement mounting plate 31 senses and commutates the upward reciprocating winding of the winding wheel shaft when moving on the winding displacement supporting plate 34, and automation of winding is improved.

The wire pushing installation frame 611 is located at the side of the wire pushing slide plate, two second proximity switches 9 are installed, the installation space between the two second proximity switches 9 satisfies the movement space between the wire pushing slide block and the wire pushing plate 614 to push the wire to the shearing position of the telescopic shearing blade 604, the two second proximity switches 9 ensure that the wire pushing plate 614 can perform reciprocating induction movement on the wire to the shearing positions of the fixed shearing blade 605 and the movable shearing blade, and the wire can be accurately sheared by the telescopic shearing blade 604 during reel changing.

When the wire winding device is used, after the wire is subjected to constant-speed wire feeding through the constant-speed wheel 72, the wire is kept at proper constant tension through the constant-tension wheel 73, the wire-distributing motor-driven screw rod mechanism 21 drives the wire winding adjusting mechanism 5 to move to the right end of the installation box body 1, the wire-winding adjusting motor-driven screw rod mechanism 501 drives the wire wheel adjusting plate 502 to move up and down to adjust the radial distance between the wire wheel adjusting plate 502 and the right wire wheel 42, the wire is wound on the right wire wheel 42 by sequentially winding the wire above the first wire wheel 71, above the second wire wheel 12 and between the two wire wheels 51, during wire winding, the wire-arranging motor-driven screw rod mechanism 33 drives the left wire wheel 41 and the right wire wheel 42 to synchronously reciprocate back and forth, so that the wire is uniformly arranged on the right wire wheel 42, the wire pushing plate 614 pushes the wire to a cut position after the right wire wheel 42 is wound to a proper wire winding thickness, after the scissors driving cylinder 602 stretches out to enable the telescopic scissors blade 604 to rotate along the rotating shaft to cut wires, the wire winding adjusting motor-driven screw rod mechanism 501 drives the wire winding adjusting plate 502 to increase the radial distance between the wire winding adjusting plate 502 and the right reel 42, the wire branching motor-driven screw rod mechanism 21 drives the wire winding adjusting mechanism 5 to move to the right upper position of the left reel 41, the wire winding adjusting motor-driven screw rod mechanism 501 drives the wire winding adjusting plate 502 to move up and down to adjust the radial distance between the wire winding adjusting plate and the left reel 41, the wire winding motor-driven screw rod mechanism 33 drives the left reel 41 and the right reel 42 to synchronously reciprocate back and forth, and after the wire is captured at the capturing opening of the wire capturing clamp 413 at the front side of the left reel 41, the wire is guided to be wound on the left reel 41 for wire arrangement and winding until the left reel 41 is wound to a proper thickness of the wire winding, and then the wire conveying is suspended for wire winding replacement.

The utility model satisfies 5mm induction or 8mm induction for the HTL-Q05 series or HTL-Q08 series of HWL brand of the use model of the first proximity switch 8 and the second proximity switch 9, and ensures the induction sensitivity.

With the above-described preferred embodiments according to the present utility model as an illustration, the above-described descriptions can be used by persons skilled in the relevant art to make various changes and modifications without departing from the scope of the technical idea of the present utility model. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims

1. Wire winding mechanism is used in enameled wire production, including installing the box, its characterized in that: the upper part of the rear side of the mounting box body backboard is provided with a wire wheel branching mechanism, the middle of the rear side of the mounting box body backboard is provided with two wire wheel movable grooves, two wire winding motors are movably arranged in the two wire wheel movable grooves through a wire arranging mechanism, the driving ends of the two wire winding motors are respectively provided with a left wire winding wheel and a right wire winding wheel backwards, the wire wheel branching mechanism is movably provided with a wire winding adjusting mechanism, the lower part of the wire winding adjusting mechanism is movably provided with two wire leading wheels, the rear side of the mounting box body backboard is positioned between the two wire wheel movable grooves and is provided with a scissor device, the wire winding guiding device is characterized in that a second wire guiding wheel is arranged above the left side of the winding adjusting mechanism through a positioning block, a traction box body is arranged on the left side of a back plate of the installation box body, a first wire guiding wheel is arranged above the left side of the back side of the traction box body, a constant speed wheel is arranged above the back side of the back plate of the traction box body through a constant speed motor, a constant tension wheel is arranged below the back side of the back plate of the traction box body, and wires sequentially wind around the upper side of the constant speed wheel, the lower side of the constant tension wheel, the upper side of the first wire guiding wheel, the upper side of the second wire guiding wheel and the space between the two wire guiding wheels and are wound on the left wire guiding wheel and the right wire guiding wheel.

2. The wire winding and winding mechanism for enameled wire production according to claim 1 is characterized in that: the scissors device comprises a scissors support, a scissors supporting plate, a scissors driving cylinder, a telescopic scissors blade and a fixed scissors blade, wherein the scissors support is a right-angle frame, one side of the right angle of the scissors support is fixed on the rear side of a back plate of an installation box body in a threaded manner, the driving end of the scissors driving cylinder is fixed on the other side of the right angle of the scissors support upwards, the scissors supporting plate is vertically fixed on the rear side of the back plate of the installation box body, the middle sections of the fixed scissors blade and the telescopic scissors blade are hinged on the right side of the scissors supporting plate, the fixed scissors blade is fixed on the right side of the scissors supporting plate, the side surface of the upper end of a telescopic column of the scissors driving cylinder is hinged on the front end of the telescopic scissors blade through a rotating shaft, and the scissors driving cylinder drives the telescopic scissors blade to be hinged and sheared at the position of the fixed scissors blade.

3. The wire winding and winding mechanism for enamel wire production according to claim 2, wherein: the scissors device further comprises a wire pushing device, the wire pushing device comprises a wire pushing installation frame, a wire pushing plate, a push plate sliding block and a screw rod mechanism driven by a sliding motor, the front end of the wire pushing installation frame is vertically fixed below the scissors support on the rear side face of the backboard of the installation box body, the screw rod mechanism driven by the sliding motor is installed on the upper surface of the wire pushing installation frame, the wire pushing plate moves back and forth on the screw rod mechanism driven by the sliding motor through the push plate sliding block, and the wire pushing plate moves back and forth on the right side of the telescopic scissors blade.

4. The wire winding and winding mechanism for enamel wire production as claimed in claim 3, wherein: the front end of the left reel is also provided with a wire catcher, the wire catcher comprises a wire catching disc and a wire catching clamp, the wire catching disc is fixedly arranged at the front end of the left reel and is matched with the left reel to rotate synchronously, the edge of the rear end of the left reel is provided with an inverted inclined surface, the wire catching clamp is a Z-shaped clamping plate, the wire catching clamp is fixed on the inverted inclined surface of the left reel, and the clamping opening of the wire catching clamp faces to the left.

5. The wire winding and winding mechanism for enamel wire production of claim 4, wherein: the wire arranging mechanism comprises a wire arranging mounting plate, two guide rail mechanisms, a wire arranging supporting plate and a wire arranging motor driven screw rod mechanism, the wire arranging supporting plate is vertically arranged on the front side face of a backboard of an installation box body, the two guide rail mechanisms are respectively arranged at the left edge and the right edge of the upper surface of the wire arranging supporting plate, the wire arranging motor driven screw rod mechanism is arranged in the middle of the wire arranging supporting plate, the wire arranging mounting plate moves forwards and backwards above the wire arranging supporting plate through the wire arranging motor driven screw rod mechanism and the two guide rail mechanisms, and the two wire winding motors are respectively fixedly arranged at the left side and the right side of the wire arranging mounting plate through two motor brackets.

6. The wire winding and winding mechanism for enamel wire production of claim 5, wherein: the wire wheel branching mechanism comprises a branching slide block and a branching motor driven screw rod mechanism, the branching motor driven screw rod mechanism is installed on the upper portion of the rear side face of the backboard of the installation box body in the left-right direction, and the winding adjusting mechanism is movably installed on the branching motor driven screw rod mechanism through the branching slide block to move left and right.

7. The wire winding and winding mechanism for enamel wire production of claim 6, wherein: the wire winding adjustment mechanism comprises a wire wheel adjustment plate and a wire winding adjustment motor driven screw rod mechanism, wherein the wire wheel adjustment plate is arranged on the wire winding adjustment motor driven screw rod mechanism to move up and down, and the two wire wheels are respectively arranged on the left side and the right side of the lower end of the wire wheel adjustment plate.

8. The wire winding and winding mechanism for enamel wire production of claim 7, wherein: two first proximity switches are installed in the front and back direction on the right side of the winding displacement supporting plate, and the installation space of the two first proximity switches meets the moving space of the axial winding of the left winding wheel and the right winding wheel.

9. The wire winding and winding mechanism for enamel wire production of claim 8, wherein: the push wire installation frame is located push wire slide board side-mounting and has two second proximity switches, and two the installation interval of second proximity switch satisfies push wire slider drive push wire board and pushes away the removal interval that flexible scissors blade sheared the wire rod.