CN215854357U - Production wind of data line - Google Patents

Abstract

The application discloses production wind of data line relates to data line production field, including frame, inlet wire subassembly, wire winding subassembly, press from both sides line subassembly and unloading subassembly, the vertical setting of frame, the inlet wire subassembly sets up in the frame, and the inlet wire subassembly extends to the top of frame, the wire winding subassembly sets up on the lateral wall of frame, and the wire winding subassembly is located the side of inlet wire subassembly, press from both sides the line subassembly and be located the top of frame, and press from both sides the side that the line subassembly is located the wire winding subassembly, the unloading subassembly sets up in the frame. The utility model has the advantages that: remove to realize wire-wound automation through the wire winding subassembly, have the advantage of automatic winding and be convenient for take off the data line, avoided because the winding is too tight, inconvenient problem of taking off.

Description

Production wind of data line

Technical Field

The application relates to the technical field of data line production, in particular to a production winding device for data lines.

Background

Along with the development of electronic technology, the data line is also more and more common, because the data line is mass production generally, its is a great amount, after the data line is produced, its manufacture factory often can twine the data line and tie up, pile up in order to avoid a large amount of data lines to mix together, winding device need be used during the data line production, but most winding devices on the market are when twining the data line now, often be through the bare-handed winding mode of staff, adopt the data line that this kind of mode winding comes out often to be mixed and disorderly, the winding effect is not as good as one's mind, and because the winding is too tight, inconvenient taking off, thereby winding device's practicality has been reduced.

SUMMERY OF THE UTILITY MODEL

The embodiment of the application provides a production wind of data line.

The embodiment of the application adopts the following technical scheme: the utility model provides a production wind of data line, includes frame, inlet wire subassembly, wire winding subassembly, presss from both sides line subassembly and unloading subassembly, the vertical setting of frame, the inlet wire subassembly sets up in the frame, and the inlet wire subassembly extends to the top of frame, the wire winding subassembly sets up on the lateral wall of frame, and the wire winding subassembly is located the side of inlet wire subassembly, press from both sides the line subassembly and be located the top of frame, and press from both sides the side that the line subassembly is located the wire winding subassembly, the unloading subassembly sets up in the frame.

Preferably, the inlet wire subassembly includes supporting seat, mobile motor, removal screw rod, stopper, spacing roller and feeding piece, the vertical setting of supporting seat is in the frame, and the mobile motor setting is on the supporting seat, the stopper is equipped with four, and four stoppers are two bisymmetry settings respectively in the both sides at frame top, spacing roller sets up between two stoppers, and the both ends of spacing roller respectively with the lateral wall fixed connection of two stoppers, the mobile screw rod sets up between two other stoppers, and the lateral wall of the one end of mobile screw rod and a stopper rotates to be connected, the other end in the mobile screw rod runs through the output fixed connection of another stopper and mobile motor, the feeding piece sets up between supporting seat and a stopper, and the feeding piece includes feeding motor, diaphragm, gag lever post, compression spring, guide frame, traction wheel, The feeding motor is arranged on the transverse plate, the guide frame is positioned at the top of the frame, the two traction wheels are arranged in the guide frame at intervals, the two traction wheels are respectively sleeved on the two rotating shafts, the two rotating shafts are respectively arranged on the guide frame at intervals, the two traction wheels are respectively sleeved on the two rotating shafts, the output end of the feeding motor is fixedly connected with one rotating shaft, the two rotating discs are respectively sleeved on the two rotating shafts, and the synchronous belt is sleeved on the two rotating discs.

Preferably, the winding assembly comprises a winding motor, a mounting plate, an L-shaped plate, moving racks, a driving motor, a driving gear, sliding blocks, a winding arm, an inserting block and a winding seat, the winding seat is arranged at the top of the rack, two ends of the winding seat are respectively sleeved on the limiting roller and the moving screw rod, the top of the winding seat is provided with a wire rotating disc which is rotatably connected with the winding seat, the driving motor is arranged at the middle section of the supporting seat, the driving gear is arranged at the output end of the driving motor, the moving racks are two, the two moving racks are respectively arranged at two sides of the driving gear in a vertically staggered manner, the two moving racks are both meshed with the driving gear, one sliding block is fixed on the side wall of the rack, the other sliding block is vertically arranged on the bottom wall of the rack, and the two sliding blocks are respectively connected with the side walls of the two moving racks in a sliding manner, the mounting panel sets up on the lateral wall of a removal rack, and the L template setting is on the mounting panel, winding motor sets up in the L template, and winding motor's output runs through commentaries on classics line dish fixed connection on L template and the wire reel, the one end level of wire winding arm sets up on the top of a removal rack, and the other end of wire winding arm extends to the top of commentaries on classics line dish, the grafting piece sets up the bottom at the other end of wire winding arm, and the grafting piece cooperates with changeing the line dish grafting.

Preferably, the wire clamping component comprises a supporting block, a vertical plate, a wire clamping screw rod, a wire clamping motor, a clamping arm, a connecting column and a clamping jaw, wherein the supporting block is arranged on the frame, the vertical plate is located on the side of the supporting block, the wire clamping motor is arranged on the supporting block, one end of the wire clamping screw rod is fixedly connected with the output end of the wire clamping motor, the other end of the wire clamping screw rod is rotatably connected with the side wall of the vertical plate, the clamping arm is L-shaped and is arranged on the side of the frame in a sliding mode, a clamping sleeve of the clamping arm is arranged on the wire clamping screw rod, the other end of the clamping arm extends to the top of the frame, the connecting column is vertically arranged at the bottom of the other end of the clamping arm, the clamping jaw is arranged at the bottom end of the connecting column, and the clamping jaw is located between the movable screw rod and the limiting roller.

Preferably, the assembly of inserting winding down includes spacing seat, fixed block, movable block, according to briquetting and extrusion spring, spacing seat sets up in the frame, the fixed block is equipped with two, and two fixed block symmetries set up the top at spacing seat, the movable block is equipped with two, and two movable block symmetries set up the top at spacing seat, and two fixed blocks and two movable blocks form a circular at the top of spacing seat, according to the briquetting and being equipped with two, two are according to the briquetting and set up respectively on the lateral wall of two movable blocks, the extrusion spring is equipped with two, and two extrusion springs set up respectively in the bottom of two movable blocks, and the both ends of every extrusion spring respectively with the bottom of movable block and the top fixed connection of spacing seat.

Preferably, a wire collecting box is arranged beside the limiting seat.

The embodiment of the application adopts at least one technical scheme which can achieve the following beneficial effects:

one of them, put into the guide frame with the data line, then the feeding motor rotates, the axis of rotation that the drive is connected rather than output rotation rotates, the axis of rotation rotates and drives the traction wheel and the rolling disc rotation that the cover was established on it, under the effect of hold-in range, it rotates to drive another axis of rotation, thereby transport to the rolling disc in with the data line in the guide frame through two traction wheels, and because the electric conductive property of data line, the thickness of individual data line is different, the accessible contradicts with the traction wheel of below, thereby drive the axis of rotation, the length direction change height of spacing pole is followed to feeding motor and diaphragm, and accessible compression spring's elasticity recovers, and is very convenient.

When the data wire enters the rotary wire disc, the driving motor rotates to drive the driving gear fixedly connected with the output end of the driving motor to rotate, the driving gear rotates to drive the two moving racks meshed with the driving gear to move oppositely, the two moving racks move to respectively drive the mounting plate fixedly connected with the mounting plate and the winding arm, the mounting plate moves to drive the L-shaped plate mounted on the mounting plate and the winding motor mounted on the L-shaped plate to move, the output end of the winding motor is spliced with the bottom of the rotary wire disc, the winding arm moves to drive the splicing block at the bottom of the winding arm to be spliced with the rotary wire disc, at the moment, the winding motor rotates to drive the rotary wire disc spliced with the output end of the winding motor to rotate, the rotary wire disc rotates to drive the data wire in the rotary wire disc to be wound into a disc along the rotary wire disc, after the winding is finished, the driving motor rotates to separate the winding motor and the splicing block from the rotary wire disc, the moving motor rotates to drive the moving screw fixedly connected with the output end of the moving motor to rotate, the movable screw rotates to drive the wire winding seat sleeved on the movable screw to move, when the wire winding seat moves to the position below the clamping jaw, the clamping jaw clamps the coiled data wire, then the wire clamping motor rotates to drive the wire clamping screw fixedly connected with the output end of the wire clamping screw to rotate, the wire clamping screw rotates to drive the clamping arm sleeved on the clamping jaw to move, the clamping arm moves to drive the connecting column and the clamping jaw to move, the coiled data wire is taken between the fixed block and the movable block, the pressing blocks on the outer side walls of the two movable blocks are pressed, the coiled data wire is taken down and restored through the extrusion spring, and finally the coiled data wire is placed into the wire collecting box to be collected.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

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

FIG. 2 is a schematic structural view of a wire feeding assembly according to the present invention;

FIG. 3 is an enlarged view taken at A in FIG. 2;

FIG. 4 is an enlarged view at B in FIG. 2;

FIG. 5 is a schematic view of the structure of the feeding member of the present invention;

FIG. 6 is a schematic view of a winding assembly according to the present invention;

FIG. 7 is an enlarged view at C of FIG. 6;

FIG. 8 is a schematic structural view of a wire clamping assembly according to the present invention;

FIG. 9 is a schematic view of the construction of the downline assembly of the present invention;

FIG. 10 is an enlarged view taken at D in FIG. 9;

fig. 11 is a schematic view showing the structure of the pressing spring according to the present invention.

In the figure: the wire winding machine comprises a rack 1, a wire feeding assembly 2, a supporting seat 21, a moving motor 22, a moving screw 23, a limiting block 24, a limiting roller 25, a feeding piece 26, a feeding motor 261, a transverse plate 262, a limiting rod 263, a compression spring 264, a guide frame 265, a traction wheel 266, a rotating shaft 267, a rotating disc 268, a synchronous belt 269, a wire winding assembly 3, a wire winding motor 31, a mounting plate 32, an L-shaped plate 33, a moving rack 34, a driving motor 35, a driving gear 36, a sliding block 37, a wire winding arm 38, an insertion block 39, a wire winding seat 40, a wire rotating disc 401, a wire clamping assembly 4, a supporting block 41, a vertical plate 42, a wire clamping screw 43, a wire clamping motor 44, a clamping arm 45, a connecting column 46, a clamping jaw 47, a wire winding assembly 5, a limiting seat 51, a fixing block 52, a moving block 53, a pressing block 54, an extrusion spring 55 and a wire winding box 6.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It should be apparent that the described embodiments are only some of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The technical solutions provided by the embodiments of the present application are described in detail below with reference to the accompanying drawings.

This embodiment, as shown in fig. 1 to 11, a production wind of data line, it includes frame 1, inlet wire subassembly 2, wire winding subassembly 3, presss from both sides line subassembly 4 and rolls off the production line subassembly 5, the vertical setting of frame 1, inlet wire subassembly 2 sets up on frame 1, and inlet wire subassembly 2 extends to the top of frame 1, wire winding subassembly 3 sets up on the lateral wall of frame 1, and wire winding subassembly 3 is located the side of inlet wire subassembly 2, press from both sides line subassembly 4 and be located the top of frame 1, and press from both sides line subassembly 4 and be located the side of wire winding subassembly 3, the unloading subassembly sets up in frame 1.

Specifically, inlet wire subassembly 2 includes supporting seat 21, mobile motor 22, removal screw 23, stopper 24, spacing roller 25 and feeding piece 26, the vertical setting of supporting seat 21 is in frame 1, and mobile motor 22 sets up on supporting seat 21, stopper 24 is equipped with four, and four stoppers 24 are two bisymmetry settings respectively in the both sides at frame 1 top, stopper 25 sets up between two stoppers 24, and the both ends of stopper 25 respectively with the lateral wall fixed connection of two stoppers 24, remove screw 23 and set up between two other stoppers 24, and the one end of removing screw 23 rotates with the lateral wall of a stopper 24 to be connected, and the other end in the removal screw 23 runs through another stopper 24 and mobile motor 22's output fixed connection, feeding piece 26 sets up between supporting seat 21 and a stopper 24, and feeding piece 26 includes feeding motor 261, The feeding device comprises a transverse plate 262, two limiting rods 263, two compression springs 264, a guide frame 265, two traction wheels 266, two rotating shafts 267, two rotating discs 268 and a synchronous belt 269, wherein the two limiting rods 263 are symmetrically arranged at the top of the rack 1, the transverse plate 262 is sleeved on the two limiting rods 263, the two compression springs 264 are respectively sleeved on the two limiting rods 263, two ends of the two compression springs 264 are respectively fixedly connected with the bottom of the transverse plate 262 and the top of the rack 1, the feeding motor 261 is arranged on the transverse plate 262, the guide frame 265 is erected on the transverse plate 262, the guide frame 265 is positioned at the top of the rack 1, the two traction wheels 266 are arranged in the guide frame 265 at intervals, the two rotating shafts 267 are arranged, the two rotating shafts 267 are respectively arranged on the guide frame 265 at intervals, and the two traction wheels 266 are respectively sleeved on the two rotating shafts 267, the output end of the feeding motor 261 is fixedly connected with a rotating shaft 267, two rotating discs 268 are arranged, the two rotating discs 268 are respectively sleeved on the two rotating shafts 267, a synchronous belt 269 is sleeved on the two rotating discs 268, a data wire is placed in the guide frame 265, then the feeding motor 261 rotates to drive the rotating shaft 267 which is rotatably connected with the output end of the feeding motor to rotate, the rotating shaft 267 rotates to drive a traction wheel 266 and the rotating discs 268 which are sleeved on the rotating shaft 267 to rotate, under the action of the synchronous belt 269, the other rotating shaft 267 rotates, so that the data wire in the guide frame 265 is conveyed into the wire rotating disc 401 through the two traction wheels 266, and due to the different thicknesses of the data wire, the thicknesses of the individual data wires are different, the rotating shaft 267, the feeding motor 261 and the transverse plate 262 are driven to change the height along the length direction of the limiting rod 263, and the elasticity of the compression spring 264 is recovered, which is very convenient, the moving motor 22 rotates to drive the moving screw 23 fixedly connected with the output end of the moving motor to rotate, the moving screw 23 rotates to drive the winding seat 40 sleeved on the moving screw to move, and when the winding seat 40 moves to the lower part of the clamping jaw 47, the taking is convenient.

Specifically, the winding assembly 3 includes a winding motor 31, a mounting plate 32, an L-shaped plate 33, two moving racks 34, a driving motor 35, a driving gear 36, a sliding block 37, a winding arm 38, an insertion block 39 and a winding seat 40, the winding seat 40 is disposed at the top of the rack 1, two ends of the winding seat 40 are respectively sleeved on the limiting roller 25 and the moving screw 23, the top of the winding seat 40 is provided with a wire rotating disc 401 rotatably connected with the winding seat, the driving motor 35 is disposed at the middle section of the supporting seat 21, the driving gear 36 is disposed at the output end of the driving motor 35, the two moving racks 34 are disposed at two sides of the driving gear 36 respectively in a vertically staggered manner, the two moving racks 34 are both meshed with the driving gear 36, the sliding block 37 is disposed two, one sliding block 37 is fixed on the side wall of the rack 1, the other sliding block 37 is vertically disposed on the bottom wall of the rack 1, and two sliding blocks 37 are respectively connected with the side walls of two movable racks 34 in a sliding manner, the mounting plate 32 is arranged on the side wall of one movable rack 34, the L-shaped plate 33 is arranged on the mounting plate 32, the winding motor 31 is arranged in the L-shaped plate 33, the output end of the winding motor 31 penetrates through the L-shaped plate 33 and the rotary plate 401 on the winding seat 40 to be fixedly connected, one end of the winding arm 38 is horizontally arranged at the top end of one movable rack 34, the other end of the winding arm 38 extends to the upper side of the rotary plate 401, the plugging block 39 is arranged at the bottom of the other end of the winding arm 38, the plugging block 39 is in plugging fit with the rotary plate 401, when a data line enters the rotary plate 401, the driving motor 35 rotates to drive the driving gear 36 fixedly connected with the output end of the driving gear to rotate, the driving gear 36 rotates to drive the two movable racks 34 engaged with the driving gear to move oppositely, the two movable racks 34 move to respectively drive the mounting plate 32 and the winding arm 38 fixedly connected with the driving gear to move, the mounting plate 32 moves to drive the L-shaped plate 33 mounted on the mounting plate 32 and the winding motor 31 mounted on the L-shaped plate 33 to move, so that the output end of the winding motor 31 is connected with the bottom of the wire rotating disc 401 in an inserting mode, the winding arm 38 moves to drive the inserting block 39 at the bottom of the winding arm to be connected with the wire rotating disc 401 in an inserting mode, the winding motor 31 rotates to drive the wire rotating disc 401 connected with the output end of the winding arm to rotate, the wire rotating disc 401 rotates to drive the data wires in the wire rotating disc to be wound into a disc automatically, and time is saved.

Specifically, the wire clamping component 4 includes a supporting block 41, a vertical plate 42, a wire clamping screw 43, a wire clamping motor 44, a clamping arm 45, a connecting column 46 and a clamping jaw 47, the supporting block 41 is disposed on the frame 1, the vertical plate 42 is located beside the supporting block 41, the wire clamping motor 44 is disposed on the supporting block 41, one end of the wire clamping screw 43 is fixedly connected with an output end of the wire clamping motor 44, the other end of the wire clamping screw 43 is rotatably connected with a side wall of the vertical plate 42, the clamping arm 45 is disposed beside the frame 1 in an L-shaped sliding manner, one end of the clamping arm 45 is sleeved on the wire clamping screw 43, the other end of the clamping arm 45 extends to the top of the frame 1, the connecting column 46 is vertically disposed at the bottom of the other end of the clamping arm 45, the clamping jaw 47 is disposed at the bottom end of the connecting column 46, and the clamping jaw 47 is located between the movable screw 23 and the limiting roller 25, when the wire winding seat 40 moves to the lower part of the clamping jaw 47, the clamping jaw 47 clamps the coiled data wire, then the wire clamping motor 44 rotates to drive the wire clamping screw 43 fixedly connected with the output end of the wire clamping motor to rotate, the wire clamping screw 43 rotates to drive the clamping arm 45 sleeved on the wire clamping screw to move, the clamping arm 45 moves to drive the connecting column 46 and the clamping jaw 47 to move, and the coiled data wire is brought between the fixed block 52 and the moving block 53.

Specifically, the lower wire assembly 5 comprises a limiting seat 51, two fixing blocks 52, two moving blocks 53, two pressing blocks 54 and two extrusion springs 55, the limiting seat 51 is arranged on the frame 1, the two fixing blocks 52 are arranged on the top of the limiting seat 51, the two fixing blocks 52 are symmetrically arranged on the top of the limiting seat 51, the two moving blocks 53 are symmetrically arranged on the top of the limiting seat 51, the two fixing blocks 52 and the two moving blocks 53 form a circle on the top of the limiting seat 51, the two pressing blocks 54 are arranged, the two pressing blocks 54 are respectively arranged on the outer side walls of the two moving blocks 53, the two extrusion springs 55 are respectively arranged on the bottoms of the two moving blocks 53, the two ends of each extrusion spring 55 are respectively fixedly connected with the bottom of the moving block 53 and the top of the limiting seat 51, and the pressing blocks 54 on the outer side walls of the two moving blocks 53 are pressed, the coiled data lines are removed and restored by squeezing the spring 55, facilitating the removal of the coiled data lines from the jaws 47 by the user.

Specifically, the side of the limiting seat 51 is provided with a wire collecting box 6 for collecting data wires.

The working process of the utility model is as follows: the data wire is put into the guide frame 265, then the feeding motor 261 rotates to drive the rotating shaft 267 which is rotationally connected with the output end of the feeding motor to rotate, the rotating shaft 267 rotates to drive the traction wheel 266 and the rotating disc 268 which are sleeved on the rotating shaft 267 to rotate, under the action of the synchronous belt 269, the other rotating shaft 267 is driven to rotate, so that the data wire in the guide frame 265 is conveyed to the wire rotating disc 401 through the two traction wheels 266, and due to the different thicknesses of the data wire and the different thicknesses of the individual data wire, the rotating shaft 267, the feeding motor 261 and the transverse plate 262 are driven to change the height along the length direction of the limiting rod 263 and can be restored through the elasticity of the compression spring 264, therefore, the feeding device is convenient, when the data wire enters the wire rotating disc 401, the driving motor 35 rotates to drive the driving gear 36 which is fixedly connected with the output end of the data wire to rotate, the driving gear 36 rotates to drive the two moving racks 34 which are meshed with the driving motor to move towards each other, the two moving racks 34 move to respectively drive the mounting plate 32 and the winding arm 38 fixedly connected with the mounting plate 32 to move, the mounting plate 32 moves to drive the L-shaped plate 33 mounted on the mounting plate 32 and the winding motor 31 mounted on the L-shaped plate 33 to move, so that the output end of the winding motor 31 is inserted into the bottom of the wire rotating disc 401, the winding arm 38 moves to drive the insertion block 39 at the bottom of the winding arm to be inserted into the wire rotating disc 401, at the moment, the winding motor 31 rotates to drive the wire rotating disc 401 inserted into the output end of the winding motor, the wire rotating disc 401 rotates to drive the data wire therein to be wound into a disc along the wire rotating disc 401, after the winding is completed, the driving motor 35 rotates to separate the winding motor 31 and the insertion block 39 from the wire rotating disc 401, the moving motor 22 rotates to drive the moving screw 23 fixedly connected with the output end of the moving screw 23 to rotate to drive the wire winding seat 40 sleeved thereon to move, when the wire winding seat 40 moves to the lower part of the clamping jaw 47, the clamping jaw 47 clamps the coiled data lines, then the wire clamping motor 44 rotates to drive the wire clamping screw 43 fixedly connected with the output end of the wire clamping screw to rotate, the wire clamping screw 43 rotates to drive the clamping arm 45 sleeved on the wire clamping screw to move, the clamping arm 45 moves to drive the connecting column 46 and the clamping jaw 47 to move, the coiled data lines are taken between the fixed block 52 and the moving blocks 53, the pressing blocks 54 on the outer side walls of the two moving blocks 53 are pressed, the coiled data lines are taken down and restored through the extrusion spring 55, and finally the coiled data lines are placed in the wire collecting box 6 to be collected.

The above description is only an example of the present application and is not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (6)

1. The utility model provides a production wind of data line which characterized in that: including frame (1), inlet wire subassembly (2), wire winding subassembly (3), press from both sides line subassembly (4) and lower line subassembly (5), the vertical setting of frame (1), inlet wire subassembly (2) set up in frame (1), and inlet wire subassembly (2) extend to the top of frame (1), wire winding subassembly (3) set up on the lateral wall of frame (1), and wire winding subassembly (3) are located the side of inlet wire subassembly (2), press from both sides line subassembly (4) and be located the top of frame (1), and press from both sides the side that line subassembly (4) are located wire winding subassembly (3), the subassembly that rolls off the production line sets up in frame (1).

2. The data line production winding device of claim 1, wherein: the incoming line component (2) comprises a supporting seat (21), a mobile motor (22), mobile screws (23), limiting blocks (24), limiting rollers (25) and a feeding part (26), the supporting seat (21) is vertically arranged on the rack (1), the mobile motor (22) is arranged on the supporting seat (21), the number of the limiting blocks (24) is four, the four limiting blocks (24) are respectively arranged on two sides of the top of the rack (1) in a pairwise symmetry manner, the limiting rollers (25) are arranged between the two limiting blocks (24), two ends of each limiting roller (25) are respectively fixedly connected with the side walls of the two limiting blocks (24), the mobile screws (23) are arranged between the other two limiting blocks (24), one end of each mobile screw (23) is rotatably connected with the side wall of one limiting block (24), and the other end in each mobile screw (23) penetrates through the output end of the other limiting block (24) and the mobile motor (22), the feeding piece (26) is arranged between the supporting seat (21) and one limiting block (24), the feeding piece (26) comprises two feeding motors (261), a transverse plate (262), two limiting rods (263), two compression springs (264), two guide frames (265), two traction wheels (266), a rotating shaft (267), a rotating disc (268) and a synchronous belt (269), the two limiting rods (263) are symmetrically arranged at the top of the rack (1), the transverse plate (262) is sleeved on the two limiting rods (263), the two compression springs (264) are respectively sleeved on the two limiting rods (263), two ends of the two compression springs (264) are respectively fixedly connected with the bottom of the transverse plate (262) and the top of the rack (1), the feeding motor (261) is arranged on the transverse plate (262), the guide frames (265) are erected on the transverse plate (262), and guide frame (265) are located the top of frame (1), traction wheel (266) are equipped with two, and two traction wheel (266) intervals set up in guide frame (265), axis of rotation (267) are equipped with two, and two axis of rotation (267) interval respectively set up on guide frame (265), and two traction wheel (266) overlap respectively and establish on two axis of rotation (267), the output and one axis of rotation (267) fixed connection of feeding motor (261), rolling disc (268) are equipped with two, and two rolling discs (268) are established respectively on two axis of rotation (267), and hold-in range (269) cover is established on two rolling discs (268).

3. The data line production winding device of claim 1, wherein: the winding assembly (3) comprises a winding motor (31), a mounting plate (32), an L-shaped plate (33), a movable rack (34), a driving motor (35), a driving gear (36), a sliding block (37), a winding arm (38), an inserting block (39) and a winding seat (40), wherein the winding seat (40) is arranged at the top of the rack (1), two ends of the winding seat (40) are respectively sleeved on the limiting roller (25) and the movable screw (23), the top of the winding seat (40) is provided with a wire rotating disc (401) which is rotatably connected with the winding seat, the driving motor (35) is arranged at the middle section of the supporting seat (21), the driving gear (36) is arranged at the output end of the driving motor (35), the movable racks (34) are two, the two movable racks (34) are arranged at two sides of the driving gear (36) in an up-down staggered manner respectively, and the two movable racks (34) are both meshed with the driving gear (36), the two sliding blocks (37) are arranged, one sliding block (37) is fixed on the side wall of the rack (1), the other sliding block (37) is vertically arranged on the bottom wall of the rack (1), the two sliding blocks (37) are respectively connected with the side walls of the two movable racks (34) in a sliding manner, the mounting plate (32) is arranged on the side wall of one movable rack (34), the L-shaped plate (33) is arranged on the mounting plate (32), the winding motor (31) is arranged in the L-shaped plate (33), the output end of the winding motor (31) penetrates through the L-shaped plate (33) and is fixedly connected with a wire rotating disc (401) on the wire winding seat (40), one end of the winding arm (38) is horizontally arranged at the top end of one movable rack (34), the other end of the winding arm (38) extends to the upper side of the wire rotating disc (401), and the plug-in block (39) is arranged at the bottom of the other end of the winding arm (38), and the plug-in block (39) is matched with the wire rotating disc (401) in a plug-in manner.

4. The data line production winding device of claim 2, wherein: the wire clamping component (4) comprises a supporting block (41), a vertical plate (42), a wire clamping screw rod (43), a wire clamping motor (44), a clamping arm (45), a connecting column (46) and a clamping jaw (47), wherein the supporting block (41) is arranged on the rack (1), the vertical plate (42) is located on the side of the supporting block (41), the wire clamping motor (44) is arranged on the supporting block (41), one end of the wire clamping screw rod (43) is fixedly connected with the output end of the wire clamping motor (44), the other end of the wire clamping screw rod (43) is rotatably connected with the side wall of the vertical plate (42), the clamping arm (45) is L-shaped and is arranged on the rack (1) in a sliding manner, one end of the clamping arm (45) is sleeved on the wire clamping screw rod (43), the other end of the clamping arm (45) extends to the top of the rack (1), the connecting column (46) is vertically arranged at the bottom of the other end of the clamping arm (45), the clamping jaw (47) is arranged at the bottom end of the connecting column (46), and the clamping jaw (47) is located between the movable screw rod (23) and the limiting roller (25).

5. The data line production winding device of claim 1, wherein: the lower wire assembly (5) comprises a limiting seat (51), two fixing blocks (52), two moving blocks (53), two pressing blocks (54) and two extrusion springs (55), the limiting seat (51) is arranged on the rack (1), the two fixing blocks (52) are symmetrically arranged at the top of the limiting seat (51), the two moving blocks (53) are symmetrically arranged at the top of the limiting seat (51), the two fixing blocks (52) and the two moving blocks (53) form a circle at the top of the limiting seat (51), the two pressing blocks (54) are arranged, the two pressing blocks (54) are respectively arranged on the outer side walls of the two moving blocks (53), the two extrusion springs (55) are respectively arranged at the bottoms of the two moving blocks (53), and the two ends of each extrusion spring (55) are respectively fixed to the bottom of the moving block (53) and the top of the limiting seat (51) And (4) connecting.

6. The data line production winding device of claim 5, wherein: and a wire collecting box (6) is arranged beside the limiting seat (51).

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