CN109292527B - Winding device with three-dimensional characteristic substrate - Google Patents

Abstract

The invention discloses a winding device with a three-dimensional characteristic substrate, which structurally comprises a three-dimensional substrate winding drum, a lead shaft fixing seat, a left lead shaft, a right lead shaft, a groove, a power supply gate, a spinning yarn winding control device, a ventilation opening, a working state indicator lamp, a bottom plate and lifting foot frames, wherein the spinning yarn winding control device is welded at the upper end of the bottom plate, the lifting foot frames are totally provided with more than two and have the same shape and size, the lifting foot frames are embedded at four corners of the lower surface of the bottom plate, the power supply gate is attached to the upper end of the front surface of the spinning yarn winding control device, the spinning yarn winding control device is arranged, when the rotating speed of a winding shaft is too high, a friction force is applied to the winding shaft to control the rotating speed of the winding shaft, so that the rotating speed of the winding shaft is matched with the rotating speed of a pay-off shaft, when the rotating speed of the pay-off shaft is too, prevents the spinning from deviating from the original winding position, and is convenient to use.

Description

Winding device with three-dimensional characteristic substrate

Technical Field

The invention discloses a winding device with a three-dimensional characteristic substrate, and belongs to the field of winding devices.

Background

The winder generally has four main components: the winding device is mainly used in the fields of glue pipelines, nylon, polyester cords, polyester cord winding, high-tech fibers and the like.

Disclosure of Invention

The invention aims to provide a winding device with a three-dimensional characteristic substrate, aiming at solving the problems that when the spinning yarn is wound by a winding device commonly used in the prior art, because the rotating speeds of a winding shaft and a pay-off shaft are possibly not matched, when the rotating speed of the pay-off shaft is greater than that of the winding shaft, the spinning yarn is paid out too long and the tension borne by the spinning yarn is reduced, the spinning yarn is possibly deviated from the original winding position during winding, the spinning yarn is wound in a messy and knotted mode, the spinning bobbin is inconvenient to use subsequently, and when the rotating speed of the winding shaft is greater than that of the pay-off shaft, the tension borne by the spinning yarn exceeds the bearing range of the spinning yarn, so that the spinning yarn is pulled off.

In order to achieve the purpose, the invention is realized by the following technical scheme: a winding device with a three-dimensional characteristic substrate structurally comprises a three-dimensional substrate winding drum, a wire shaft fixing seat, a left wire shaft, a right wire shaft, a groove, a power supply brake, a yarn winding control device, a ventilation opening, a working state indicator lamp, a bottom plate and lifting foot frames, wherein the yarn winding control device is welded at the upper end of the bottom plate, the lifting foot frames are totally more than two and have the same shape and size, the lifting foot frames are embedded at four corners of the lower surface of the bottom plate, the power supply brake is attached to the front upper end of the yarn winding control device, the ventilation opening is embedded at the front lower end of the yarn winding control device, the working state indicator lamp is connected to the lower end of the right surface of the yarn winding control device in an adhesive mode, the groove is embedded at the upper end of the right surface of the yarn winding control device, the three-dimensional substrate winding, the spinning thread winding control device comprises a rotating speed control structure, a device shell, a tension control structure, a half-tooth plate structure, a shaking table structure, a motor driving structure, a gear transmission structure and a cam structure, wherein the cam structure is embedded at the lower end inside the device shell, the lower end of the gear transmission structure is in transmission connection with the left end of the cam structure, the left end of the rotating speed control structure is in clearance fit with the right end of the cam structure, the lower end of the shaking table structure is meshed with the rotating speed control structure, the lower end of the tension control structure is movably connected with the upper end of the rotating speed control structure, and the upper end of the shaking table structure is in transmission connection with the half-tooth plate structure, the upper end of the half-tooth plate structure is attached to the tension control structure, the right end of the motor drive structure is in clearance fit with the left end of the tension control structure, and the lower end of the motor drive structure is welded to the upper end of the gear drive structure.

In order to optimize the technical scheme, the method further comprises the following steps:

according to one practical embodiment, the rotating speed control structure comprises a bending rod, an upper friction plate, a lower friction plate, an L-shaped fixing frame, a friction wheel, a first cross belt, a conical gear, a winding shaft fixing frame and a winding shaft, wherein the upper end of the bending rod is movably connected to the front end of the L-shaped fixing frame, the left end of the lower friction plate is connected with the bending rod through glue, the left end of the upper friction plate is welded to the lower end of the bending rod, the lower end of the first cross belt is connected to the front end of the friction wheel in a surrounding manner, the winding shaft is in transmission connection with the friction wheel through the first cross belt, the conical gear is in interference fit with the left end of the winding shaft, the winding shaft is movably connected to the lower end of the winding shaft fixing frame, the upper end of the winding shaft fixing frame is mechanically connected to the lower end of the tension control structure, the winding shaft fixing frame is movably connected to a half-, the bending rod is in clearance fit with the right end of the cam structure.

According to one implementation mode, the tension control structure comprises a threaded rod, a threaded seat, a pulley, a wire pressing rod, a bevel gear, a gear rod fixing frame, a first fluted disc and a fluted disc synchronous belt, wherein the threaded seat is in clearance fit with the outer ring of the threaded rod, the pulley is movably connected with the lower end of the right surface of the threaded seat, the left end of the wire pressing rod is welded with the threaded seat, the bevel gear is in interference fit with the upper end of the threaded rod, the gear rod is mechanically connected with the upper end of the gear rod fixing frame, the right end of the gear rod is in clearance fit with the bevel gear, the left end of the gear rod is meshed with the front surface of the first fluted disc, the right end of the fluted disc synchronous belt is connected with the front end of the first fluted disc in a surrounding manner, the first fluted disc is movably connected with the upper end inside the device shell, and the lower end, the left end of the fluted disc synchronous belt is in clearance fit with the right end of the motor driving structure.

According to one implementation mode, the half-toothed plate structure comprises a speed reduction motor, a swinging groove piece, a grooved wheel, a right rack, a right tooth seat, a half-toothed plate and a cam column, the cam column is nested at the lower end of the speed reduction motor, the right end of the half-toothed plate is in clearance fit with the cam column, the left end of the half-toothed plate is meshed with the right rack, the right rack is slidably connected to the right end of the right tooth seat, the right end of the swinging groove piece is movably connected with the upper end of the right rack, the swinging groove piece is in clearance fit with the front end of the grooved wheel, and the grooved wheel is in transmission connection with the shaking table structure.

According to one implementation mode, the shaking table structure is composed of a second fluted disc, a fluted disc connecting rod, a sliding frame, a tripod, a turntable connecting rod, a supporting plate, a first turntable and a grooved pulley synchronous belt, the lower end of the fluted disc connecting rod is mechanically connected to the front end of the second fluted disc, the upper end of the fluted disc connecting rod is movably connected to the right end of the tripod, the left end of the tripod is slidably connected to the right end of the sliding frame, the sliding frame is in clearance fit with the right end of the supporting plate, the lower end of the turntable connecting rod is movably connected to the front end of the sliding frame, the upper end of the turntable connecting rod is mechanically connected to the first turntable, the first turntable is movably connected to the upper end of the right surface of the supporting plate, the left end of the grooved pulley synchronous belt is connected to the outer ring of the first turntable in.

According to one kind can implement the mode, motor drive structure comprises preceding movable plate, back movable plate, movable plate cooperation pole, big fixing base, crank, connecting rod, little conveyer belt, the crisscross area of second, driving motor, preceding movable plate clearance fit is the front end at back movable plate, the right-hand member and the preceding movable plate swing joint of movable plate cooperation pole, the left end and the crank clearance fit of movable plate cooperation pole, articulate lower extreme mechanical connection is in the upper end of connecting rod, the lower extreme swing joint of connecting rod is in the outer lane of little conveyer belt, little conveyer belt inlays at the positive lower extreme of big fixing base, the crisscross upper end in area of second and the right-hand member clearance fit of little conveyer belt, driving motor crosses the area through the second and is connected with little conveyer belt transmission.

According to one implementable mode, the gear drive structure comprises left toothholder, left rack, first straight-tooth wheel, gear hold-in range, second straight-tooth wheel, long rack, balancing pole, second carousel, left side rack sliding connection is in the lower extreme of left toothholder, the upper end and the left rack clearance fit of first straight-tooth wheel, the upper end of gear hold-in range is encircleed and is connected in the front end of first straight-tooth wheel, first straight-tooth wheel passes through gear hold-in range and is connected with the transmission of second straight-tooth wheel, the upper end and the meshing of second straight-tooth wheel of long rack, the lower extreme and the second carousel swing joint of long rack, the lower extreme and the second carousel sliding connection of balancing pole, the second carousel is connected with the left end transmission of cam structure.

According to an implementation mode, the cam structure comprises a cam synchronous belt, a cam matching rod, a composite frame, a movable groove piece, a spring, an upper sliding rod and a cam fixing plate, wherein the right end of the cam synchronous belt is connected to the front end of the cam in a surrounding mode, the cam is movably connected to the front end of the cam fixing plate, the spring is embedded at the right end of the cam matching rod, the left end of the upper sliding rod is connected with the composite frame in a sliding mode, the lower end of the movable groove piece is movably connected with the cam matching rod, and the movable groove piece is mechanically connected to the middle section of the composite frame.

Advantageous effects

The invention relates to a winding device with a three-dimensional characteristic substrate, which is characterized in that when in work, an operator places equipment at a proper position, then inspects all parts of the equipment, after the inspection is correct, a power supply brake is pressed down, when a spinning line starts to be wound, a speed reducing motor is started to rotate the speed reducing motor, then the speed reducing motor drives a cam column to rotate the cam column, then the cam column drives a half toothed plate, the half toothed plate drives a right rack to swing a swinging slotted plate, then the swinging slotted plate drives a grooved wheel to rotate the grooved wheel, then the grooved wheel drives a first rotating disc through a grooved wheel synchronous belt, the first rotating disc drives a sliding frame through a rotating disc connecting rod to move the sliding frame up and down, then the sliding frame moves a tripod, the tripod drives a second toothed disc through a toothed disc connecting rod to rotate the second toothed disc, then the second toothed disc drives a winding shaft through a bevel gear, and the winding shaft, when the spinning yarn is wound, an operator moves the left rack, the second rotary table is rotated under the coordination of the left tooth seat, the first straight gear, the gear synchronous belt, the second straight gear, the long rack and the balance rod, then the second rotary table drives the cam through the cam synchronous belt, the cam drives the cam matching rod to enable the movable grooved plate to swing left and right, then the upper sliding rod is driven to enable the bending rod to swing, the upper friction plate and the lower friction plate are in contact with the friction wheel to control the rotation of the winding shaft, when the tension applied to the spinning yarn is reduced, the driving motor is started, the first fluted disc is rotated under the coordination of the front movable plate, the rear movable plate, the movable plate matching rod, the large fixed seat, the crank, the connecting rod, the small conveying belt, the second cross belt and the fluted disc synchronous belt, then the first fluted disc drives the gear rod, the gear rod drives the bevel gear to enable the threaded rod to rotate, and the threaded rod rotates forward and backward to enable, then the thread seat drives the thread pressing rod to move up and down, and the tension of the spinning thread is adjusted.

The invention relates to a winding device with a three-dimensional characteristic substrate, which is provided with a spinning yarn winding control device, wherein when the rotating speed of a winding shaft is too high, a friction force is applied to the winding shaft to control the rotating speed of the winding shaft, so that the rotating speed of the winding shaft is matched with that of an unwinding shaft, when the rotating speed of the unwinding shaft is too high, a spinning yarn is pressed downwards, and the spinning yarn is subjected to a downward force, so that the tension of the spinning yarn is kept at a stable value, the spinning yarn is prevented from deviating from the original winding position, and the winding device is convenient to use.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic diagram of a winding apparatus having a substrate with three-dimensional features according to the present invention.

Fig. 2 is a schematic structural view of the yarn winding control device of the present invention.

Fig. 3 is a schematic diagram of the tension control structure after rising.

Fig. 4 is a schematic structural view of the gear transmission structure of the present invention after operation.

Description of reference numerals: three-dimensional substrate winding drum-1, lead shaft fixing seat-2, left and right lead shafts-3, groove-4, power supply brake-5, spinning thread winding control device-6, ventilation opening-7, working state indicator lamp-8, bottom plate-9, lifting foot rest-10, rotating speed control structure-61, device shell-62, tension control structure-63, half-tooth plate structure-64, shaking table structure-65, motor driving structure-66, gear transmission structure-67, cam structure-68, bending rod-611, upper friction plate-612, lower friction plate-613, L-shaped fixing frame-614, friction wheel-615, first cross belt-616, bevel gear-617, winding shaft fixing frame-618, winding shaft-619, and the like, A threaded rod-631, a threaded seat-632, a pulley-633, a line pressing rod-634, an umbrella gear-635, a gear rod-636, a gear rod fixing frame-637, a first fluted disc-638, a fluted disc synchronous belt-639, a speed reducing motor-641, a swinging fluted disc-642, a grooved pulley-643, a right rack-644, a right toothed seat-645, a half fluted plate-646, a cam column-647, a second fluted disc-651, a fluted disc connecting rod-652, a sliding frame-653, a tripod-654, a turntable connecting rod-655, a supporting plate-656, a first turntable-657, a grooved pulley synchronous belt-658, a front movable plate-661, a rear movable plate-662, a movable plate matching rod-663, a large fixed seat-664, a crank-665, a connecting rod-666, a grooved pulley-635, The device comprises a small conveying belt-667, a second cross belt-668, a driving motor-669, a left toothholder-671, a left rack-672, a first straight gear-673, a gear synchronous belt-674, a second straight gear-675, a long rack-676, a balancing rod-677, a second rotating disk-678, a cam synchronous belt-681, a cam-682, a cam matching rod-683, a composite frame-684, a movable groove sheet-685, a spring-686, an upper sliding rod-687 and a cam fixing plate-688.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

Referring to fig. 1-4, the present invention provides a winding device with a substrate having three-dimensional features: the structure of the spinning yarn winding device comprises a three-dimensional substrate winding drum 1, a lead shaft fixing seat 2, a left lead shaft, a right lead shaft 3, a groove 4, a power supply brake 5, a spinning yarn winding control device 6, a ventilation opening 7, a working state indicator light 8, a bottom plate 9 and a lifting foot rest 10, wherein the spinning yarn winding control device 6 is welded at the upper end of the bottom plate 9, the lifting foot rest 10 is provided with more than two lifting foot rests with the same shape and size, the lifting foot rests 10 are embedded at four corners of the lower surface of the bottom plate 9, the power supply brake 5 is attached to the upper end of the right surface of the spinning yarn winding control device 6, the ventilation opening 7 is embedded at the lower end of the right surface of the spinning yarn winding control device 6, the working state indicator light 8 is connected to the lower end of the right surface of the spinning yarn winding control device 6 in an adhesive mode, the groove 4 is embedded at the, the yarn guide shaft fixing seat 2 is welded at the rear end of the right surface of the yarn winding control device 6, the left and right yarn guide shafts 3 are mechanically connected at the front end of the yarn guide shaft fixing seat 2, the power supply brake 5 and the vent 7 are positioned on the same plane, the yarn winding control device 6 is composed of a rotating speed control structure 61, a device shell 62, a tension control structure 63, a half-tooth plate structure 64, a shaking table structure 65, a motor driving structure 66, a gear transmission structure 67 and a cam structure 68, the cam structure 68 is embedded at the lower end inside the device shell 62, the lower end of the gear transmission structure 67 is in transmission connection with the left end of the cam structure 68, the left end of the rotating speed control structure 61 is in clearance fit with the right end of the cam structure 68, the lower end of the shaking table structure 65 is meshed with the rotating speed control structure 61, the lower end of the tension control structure 63 is movably connected with the upper, the upper end of the rocking bed structure 65 is in transmission connection with a half-toothed plate structure 64, the upper end of the half-toothed plate structure 64 is attached to the tension control structure 63, the right end of the motor drive structure 66 is in clearance fit with the left end of the tension control structure 63, the lower end of the motor drive structure 66 is welded with the upper end of the gear drive structure 67, the rotating speed control structure 61 is composed of a bending rod 611, an upper friction plate 612, a lower friction plate 613, an L-shaped fixing frame 614, a friction wheel 615, a first cross belt 616, a conical gear 617, a winding shaft fixing frame 618 and a winding shaft 619, the upper end of the bending rod 611 is movably connected to the front end of the L-shaped fixing frame 614, the left end of the lower friction plate 613 is connected with the bending rod 611 through glue, the left end of the upper friction plate 612 is welded to the lower end of the bending rod 611, the lower end of the first cross belt 616 is connected to the front end of the friction wheel 615 in a surrounding manner, the winding, the bevel gear 617 is in interference fit with the left end of the winding shaft 619, the winding shaft 619 is movably connected to the lower end of a winding shaft fixing frame 618, the upper end of the winding shaft fixing frame 618 is mechanically connected with the lower end of a tension control structure 63, the winding shaft fixing frame 618 is movably connected with a half-gear plate structure 64, the bevel gear 617 is engaged with the lower end of a rocking bed structure 65, the bending rod 611 is in clearance fit with the right end of the cam structure 68, the tension control structure 63 is composed of a threaded rod 631, a threaded seat 632, a pulley 633, a line pressing rod 634, an umbrella-shaped gear 635, a gear rod 636, a gear rod fixing frame 637, a first fluted disc 638 and a fluted disc synchronous belt 639, the threaded seat 632 is in clearance fit with the outer ring of the threaded rod 631, the pulley 633 is movably connected with the lower end of the right surface of the threaded seat 632, the left end of the line pressing rod 634 is welded with the threaded seat 632 in interference fit, the gear rod 636 is mechanically connected to the upper end of a gear rod holder 637, the right end of the gear rod 636 is in clearance fit with the bevel gear 635, the left end of the gear rod 636 is engaged on the front surface of a first toothed disc 638, the right end of a toothed synchronous belt 639 is connected around the front end of the first toothed disc 638, the first toothed disc 638 is movably connected to the upper end inside the device housing 62, the lower end of the gear rod holder 637 is welded to the upper end of a half toothed plate structure 64, the left end of the toothed synchronous belt 639 is in clearance fit with the right end of the motor driving structure 66, the half toothed plate structure 64 is composed of a speed reducing motor 641, a swinging slotted vane 642, a grooved pulley 643, a right toothed bar 644, a right toothed seat 645, a half toothed plate 646 and a cam column 643, the cam column 647 is nested at the lower end of the speed reducing motor 641, the right end of the half toothed plate 646 is in clearance fit with the cam column 647, and the left end of the grooved pulley 646, the right rack 644 is slidably connected to the right end of the right gear seat 645, the right end of the swing slot 642 is movably connected to the upper end of the right rack 644, the swing slot 642 is in clearance fit with the front end of the sheave 643, the sheave 643 is in transmission connection with the cradle structure 65, the cradle structure 65 is composed of a second fluted disc 651, a fluted disc connecting rod 652, a sliding frame 653, a tripod 654, a turntable connecting rod 655, a supporting plate 656, a first rotating disc 657 and a sheave synchronous belt 658, the lower end of the fluted disc connecting rod 652 is mechanically connected to the front end of the second fluted disc 651, the upper end of the fluted disc connecting rod 652 is movably connected to the right end of the tripod 654, the left end of the tripod 654 is slidably connected to the right end of the sliding frame 653, the sliding frame 653 is in clearance fit with the right end of the supporting plate 656, the lower end of the turntable connecting rod 655 is movably connected to the front end of the sliding frame 653, and the upper, the upper end of first carousel 657 swing joint in the backup pad 656 right surface, the left end of sheave synchronous belt 658 encircles and is connected in the outer lane of first carousel 657, the left end of backup pad 656 is laminated with the right-hand member of gear drive structure 67, motor drive structure 66 comprises preceding movable plate 661, back movable plate 662, movable plate cooperation pole 663, big fixing base 664, crank 665, connecting rod 666, little conveyer belt 667, second cross belt 668, driving motor 669, preceding movable plate 661 clearance fit is at the front end of back movable plate 662, the right-hand member and the preceding movable plate 661 swing joint of movable plate cooperation pole 663, the left end and the crank 665 clearance fit of movable plate, the lower extreme mechanical connection of crank 665 is in the upper end of connecting rod 666, the lower extreme swing joint of connecting rod 666 is in the outer lane of little conveyer belt 667, little conveyer belt 667 inlays at the positive lower extreme of big fixing base 664, the upper end of the second cross belt 668 is in clearance fit with the right end of the small conveying belt 667, the driving motor 669 is in transmission connection with the small conveying belt 667 through the second cross belt 668, the gear transmission structure 67 is composed of a left toothholder 671, a left rack 672, a first straight gear 673, a gear synchronous belt 674, a second straight gear 675, a long rack 676, a balancing rod 677 and a second rotary table 678, the left rack 672 is slidably connected with the lower end of the left toothholder 671, the upper end of the first straight gear 673 is in clearance fit with the left rack 672, the upper end of the gear synchronous belt 674 is connected with the front end of the first straight gear 673 in a surrounding manner, the first straight gear 673 is in transmission connection with the second straight gear 675 through the gear synchronous belt 674, the upper end of the long rack 676 is engaged with the second straight gear 675, the lower end of the long rack 676 is movably connected with the second rotary table 678, and the lower end of the balancing rod 677 is slidably connected with the second rotary table, the second rotating disc 678 is in transmission connection with the left end of the cam structure 68, the cam structure 68 is composed of a cam synchronous belt 681, a cam 682, a cam matching rod 683, a composite frame 684, a movable groove sheet 685, a spring 686, an upper sliding rod 687 and a cam fixing plate 688, the right end of the cam synchronous belt 681 is connected to the front end of the cam 682 in a surrounding mode, the cam 682 is movably connected to the front end of the cam fixing plate 688, the spring 686 is embedded at the right end of the cam matching rod 683, the left end of the upper sliding rod 687 is connected with the composite frame 684 in a sliding mode, the lower end of the movable groove sheet 685 is movably connected with the cam matching rod 683, and the movable groove sheet 685 is mechanically connected to the middle section of the composite frame 684.

In operation, an operator places the device at a proper position, then checks each part of the device, after checking that no error exists, presses down the power brake 5, when the spinning thread starts to be wound, the speed reducing motor 641 is started to rotate the speed reducing motor 641, then the speed reducing motor 641 drives the cam column 647 to rotate the cam column 647, then the cam column 647 drives the half toothed plate 646, the half toothed plate 646 drives the right rack 644 to swing the swinging slotted plate 642, then the swinging slotted plate 642 drives the grooved pulley 643 to rotate the grooved pulley 643, then the grooved pulley drives the first rotary disc 657 through the grooved pulley synchronous belt 658, the first rotary disc 657 drives the sliding frame 653 through the turntable connecting rod 655 to move the sliding frame 653 up and down, then the sliding frame 653 moves the tripod 654, the tripod 654 drives the second toothed disc 651 through the fluted disc connecting rod, the second toothed disc 651 then drives the winding shaft 619 through the bevel gear 617, the winding shaft 619 rotates the three-dimensional substrate winding drum 1 to start winding the thread, when the winding shaft 619 rotates too fast, an operator moves the left rack 672 to rotate the second rotary table 678 under the cooperation of the left toothholder 671, the first straight gear 673, the gear synchronous belt 674, the second straight gear 675, the long rack 676 and the balancing rod 677, then the second rotary table 678 drives the cam 682 through the cam synchronous belt 681, the cam 682 drives the cam matching rod 683 to swing the movable slotted vane 685 left and right, then the upper sliding rod 687 is driven to swing the bending rod 611, the upper friction plate 612 and the lower friction plate 613 are in contact with the friction wheel 615 to control the rotation of the winding shaft 619, when the tension applied to the thread becomes small, the driving motor 669 is started to rotate the first toothed disc 638 under the cooperation of the front movable vane 661, the rear movable vane 662, the movable vane matching rod 663, the large fixed seat 664, the crank 665, the connecting rod 666, the small conveyer belt 667, the second cross belt 668 and the toothed disc 639, then first fluted disc 638 drives gear pole 636, and gear pole 636 drives bevel gear 635, makes threaded rod 631 rotate, and threaded rod 631's normal and reverse rotation makes threaded seat 632 reciprocate, and then threaded seat 632 drives line ball pole 634 to reciprocate, adjusts the tension of spinning.

The invention applies a friction force to the winding shaft to control the rotation speed of the winding shaft when the rotation speed of the winding shaft is too high through the mutual combination of the components, so that the rotation speed of the winding shaft is matched with the rotation speed of the pay-off shaft, when the rotation speed of the pay-off shaft is too high, the spinning thread is pressed down, the spinning thread is applied with a downward force, the tension of the spinning thread is kept at a stable value, the spinning thread is prevented from deviating from the original winding position, the use is convenient, thereby solving the problems that the rotation speed of the winding shaft and the pay-off shaft is possibly not matched when the spinning thread is wound by a winding device commonly used in the prior art, when the rotation speed of the pay-off shaft is greater than the rotation speed of the winding shaft, the spinning thread is paid out too long, the tension applied to the spinning thread is reduced, the spinning thread is possibly deviated from the original winding position during winding, the spinning thread is disordered and disordered to be convenient for the subsequent use of a spinning bobbin, when the rotation speed of the winding, the yarn may be subjected to a tension exceeding the bearing range of the yarn, resulting in a problem of yarn breakage.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (6)

1. The utility model provides a take-up device with three-dimensional characteristic basement, its structure includes three-dimensional basement winding reel (1), wire axle fixing base (2), controls wire axle (3), recess (4), power brake (5), spinning winding controlling means (6), vent (7), operating condition pilot lamp (8), bottom plate (9), lift foot rest (10), its characterized in that:

the spinning yarn winding control device is characterized in that the spinning yarn winding control device (6) is welded at the upper end of the bottom plate (9), the lifting foot frames (10) are arranged in two or more modes and have the same shape and size, the lifting foot frames (10) are embedded at four corners of the lower surface of the bottom plate (9), the power supply brake (5) is attached to the front upper end of the spinning yarn winding control device (6), the vent (7) is embedded at the front lower end of the spinning yarn winding control device (6), the working state indicator lamp (8) is connected to the lower end of the right surface of the spinning yarn winding control device (6) in an adhesive mode, the groove (4) is embedded at the upper end of the right surface of the spinning yarn winding control device (6), the three-dimensional substrate winding drum (1) is movably connected to the front end of the right surface of the spinning yarn winding control device (6), the guide wire shaft fixing seat (2) is welded to the rear end of the right surface of the spinning yarn winding control device (6), and the left, the power supply gate (5) and the ventilation opening (7) are positioned on the same plane;

the spinning winding control device (6) consists of a rotating speed control structure (61), a device shell (62), a tension control structure (63), a half-tooth plate structure (64), a table shaking structure (65), a motor driving structure (66), a gear transmission structure (67) and a cam structure (68);

the cam structure (68) is embedded at the lower end inside the device shell (62), the lower end of the gear transmission structure (67) is in transmission connection with the left end of the cam structure (68), the left end of the rotating speed control structure (61) is in clearance fit with the right end of the cam structure (68), the lower end of the shaking table structure (65) is engaged with the rotating speed control structure (61), the lower end of the tension control structure (63) is movably connected with the upper end of the rotating speed control structure (61), the upper end of the shaking table structure (65) is in transmission connection with the semi-toothed plate structure (64), the upper end of the half-tooth plate structure (64) is attached to the tension control structure (63), the right end of the motor driving structure (66) is in clearance fit with the left end of the tension control structure (63), the lower end of the motor driving structure (66) is welded with the upper end of the gear transmission structure (67); the rotating speed control structure (61) consists of a bending rod (611), an upper friction plate (612), a lower friction plate (613), an L-shaped fixing frame (614), a friction wheel (615), a first cross belt (616), a bevel gear (617), a winding shaft fixing frame (618) and a winding shaft (619), wherein the upper end of the bending rod (611) is movably connected to the front end of the L-shaped fixing frame (614), the left end of the lower friction plate (613) is connected with the bending rod (611) in a gluing mode, the left end of the upper friction plate (612) is welded to the lower end of the bending rod (611), the lower end of the first cross belt (616) is connected to the front end of the friction wheel (615) in a surrounding mode, the winding shaft (619) is in transmission connection with the friction wheel (615) through the first cross belt (616), the bevel gear (617) is in interference fit with the left end of the winding shaft (619), and the winding shaft (619) is movably connected to the lower end of the winding shaft (618, the upper end of the winding shaft fixing frame (618) is mechanically connected with the lower end of the tension control structure (63), the winding shaft fixing frame (618) is movably connected with the half-gear plate structure (64), the bevel gear (617) is meshed with the lower end of the shaking table structure (65), and the bending rod (611) is in clearance fit with the right end of the cam structure (68); the tension control structure (63) is composed of a threaded rod (631), a threaded seat (632), a pulley (633), a line pressing rod (634), an umbrella-shaped gear (635), a gear rod (636), a gear rod fixing frame (637), a first fluted disc (638) and a fluted disc synchronous belt (639), wherein the threaded seat (632) is in clearance fit with the outer ring of the threaded rod (631), the pulley (633) is movably connected with the lower end of the right surface of the threaded seat (632), the left end of the line pressing rod (634) is welded with the threaded seat (632), the umbrella-shaped gear (635) is in interference fit with the upper end of the threaded rod (631), the gear rod (636) is mechanically connected with the upper end of the gear rod fixing frame (637), the right end of the gear rod (634) is in clearance fit with the umbrella-shaped gear (635), the left end of the gear rod (636) is engaged with the front face of the first fluted disc (638), and the right end of the fluted disc (639) is connected with the front end of the first fluted disc, first fluted disc (638) swing joint is in the inside upper end of device shell (62), the lower extreme of gear pole mount (637) welds mutually with the upper end of half fluted disc structure (64), the right-hand member clearance fit of the left end of fluted disc hold-in range (639) and motor drive structure (66).

2. The winding device with a substrate having three-dimensional features according to claim 1, wherein: the semi-toothed plate structure (64) comprises a speed reducing motor (641), a swinging groove piece (642), a grooved wheel (643), a right rack (644), a right gear seat (645), a semi-toothed plate (646) and a cam column (647), wherein the cam column (647) is nested at the lower end of the speed reducing motor (641), the right end of the semi-toothed plate (646) is in clearance fit with the cam column (647), the left end of the semi-toothed plate (646) is meshed with the right rack (644), the right rack (644) is slidably connected to the right end of the right gear seat (645), the right end of the swinging groove piece (642) is movably connected with the upper end of the right rack (644), the swinging groove piece (642) is in clearance fit at the front end of the grooved wheel (643), and the grooved wheel (643) is in transmission connection with a shaking table structure (65).

3. The winding device with a substrate having three-dimensional features according to claim 1, wherein: the shaking table structure (65) consists of a second fluted disc (651), a fluted disc connecting rod (652), a sliding frame (653), a tripod (654), a turntable connecting rod (655), a supporting plate (656), a first rotary disc (657) and a grooved pulley synchronous belt (658), wherein the lower end of the fluted disc connecting rod (652) is mechanically connected to the front end of the second fluted disc (651), the upper end of the fluted disc connecting rod (652) is movably connected to the right end of the tripod (654), the left end of the tripod (654) is in sliding connection with the right end of the sliding frame (653), the sliding frame (653) is in clearance fit with the right end of the supporting plate (656), the lower end of the turntable connecting rod (655) is movably connected to the front end of the sliding frame (653), the upper end of the turntable connecting rod (655) is mechanically connected with the first rotary disc (657), and the first rotary disc (657) is movably connected to the upper end of the right, the left end of the grooved pulley synchronous belt (658) is connected to the outer ring of the first rotary disc (657) in a winding way, and the left end of the support plate (656) is attached to the right end of the gear transmission structure (67).

4. The winding device with a substrate having three-dimensional features according to claim 1, wherein: the motor drive structure (66) comprises a front movable sheet (661), a rear movable sheet (662), a movable sheet matching rod (663), a large fixed seat (664), a crank (665), a connecting rod (666), a small conveying belt (667), a second cross belt (668) and a drive motor (669), wherein the front end of the rear movable sheet (662) is in clearance fit with the front end of the front movable sheet (661), the right end of the movable sheet matching rod (663) is movably connected with the front movable sheet (661), the left end of the movable sheet matching rod (663) is in clearance fit with the crank (665), the lower end of the crank (665) is mechanically connected with the upper end of the connecting rod (666), the lower end of the connecting rod (666) is movably connected with the outer ring of the small conveying belt (667), the small conveying belt (664) is embedded at the front lower end of the large fixed seat (667), the upper end of the second cross belt (668) is in clearance fit with the right end of the small conveying belt (667, the driving motor (669) is in transmission connection with the small conveying belt (667) through a second cross belt (668).

5. A winding apparatus having a substrate with three-dimensional features according to claim 3, wherein: the gear transmission structure (67) consists of a left tooth holder (671), a left rack (672), a first straight gear (673), a gear synchronous belt (674), a second straight gear (675), a long rack (676), a balancing rod (677) and a second rotary table (678), the left rack (672) is slidably connected to the lower end of the left tooth holder (671), the upper end of the first straight gear (673) is in clearance fit with the left rack (672), the upper end of the gear synchronous belt (674) is connected to the front end of the first straight gear (673) in a surrounding manner, the first straight gear (673) is in transmission connection with the second straight gear (675) through the gear synchronous belt (674), the upper end of the long rack (676) is meshed with the second straight gear (675), the lower end of the long rack (676) is movably connected with the second rotary table (678), and the lower end of the balancing rod (677) is in sliding connection with the second rotary table (678), the second rotating disc (678) is in transmission connection with the left end of the cam structure (68).

6. The winding device with a substrate having three-dimensional features according to claim 1 or 5, wherein: the cam structure (68) consists of a cam synchronous belt (681), a cam (682), a cam matching rod (683), a composite frame (684), a movable groove sheet (685), a spring (686), an upper sliding rod (687) and a cam fixing plate (688), wherein the right end of the cam synchronous belt (681) is connected to the front end of the cam (682) in a surrounding mode, the cam (682) is movably connected to the front end of the cam fixing plate (688), the spring (686) is embedded at the right end of the cam matching rod (683), the left end of the upper sliding rod (687) is connected with the composite frame (684) in a sliding mode, the lower end of the movable groove sheet (685) is movably connected with the cam matching rod (683), and the movable groove sheet (685) is mechanically connected to the middle section of the composite frame (684).

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