CN213879587U - Main winding movement mechanism - Google Patents

Abstract

The utility model discloses a main wire winding motion, including wire winding head device, the vice motion of wiring, wire winding lift drive mechanism, main wire winding mechanism, wiring drive mechanism and decollator drive mechanism, wire winding head device set up in the top of main wire winding mechanism, main wire winding mechanism set up in the top of the vice motion of wiring, wiring drive mechanism set up in one side of the vice motion of wiring, the decollator drive mechanism set up in the front of the vice motion of wiring, wire winding lift drive mechanism set up in the front of the vice motion of wiring. Relates to the technical field of winding machines. This main wire winding motion, can be quick carry out wire winding work to the stator, the manual operation step is few, great reduction staff's intensity of labour, the difficult error phenomenon that appears, and then reduced the damage of copper line, do benefit to the better wire winding work of stator, improved the result of use of coiling machine.

Description

Main winding movement mechanism

Technical Field

The utility model relates to a coiling machine technical field specifically is a main wire winding motion.

Background

The winding machine is a device for winding a linear object on a specific workpiece, and is generally used for winding copper wires, and wires wound by the common winding machine are mostly enameled copper wires (for winding inductance coils of electronic and electric products), enameled aluminum wires, textile wires (for winding yarn spindles and thread balls of textile machines), and electric heating wires and soldering wires for winding electric heating appliances, electric wires, cables and the like.

At present, the coiling machine can not be quick carry out the wire winding work to the stator, especially the total wire winding motion of coiling machine in-process of operating again, and manual operation step is too much, not only increases staff's intensity of labour in the very big degree, in the process of operation, the easy error phenomenon that appears, and then influences wire-wound effect easily, causes the damage of copper line, leads to the waste of copper line, is unfavorable for the wire winding work of stator, serious reduction the result of use of coiling machine.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Not enough to prior art, the utility model provides a main wire winding motion has solved manual operation step too much, not only increases staff's intensity of labour in the very big degree, causes the damage of copper line moreover easily, leads to the problem of the waste of copper line.

(II) technical scheme

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: a main winding movement mechanism comprises a winding head device, a wiring auxiliary movement mechanism, a winding lifting transmission mechanism, a main winding mechanism, a wiring transmission mechanism and a divider transmission mechanism, wherein the winding head device is arranged at the top of the main winding mechanism, the main winding mechanism is arranged at the top of the wiring auxiliary movement mechanism, the wiring transmission mechanism is arranged on one side of the wiring auxiliary movement mechanism, the divider transmission mechanism is arranged on the front of the wiring auxiliary movement mechanism, the winding lifting transmission mechanism is arranged on the front of the wiring auxiliary movement mechanism, and the winding lifting transmission mechanism is positioned at the bottom of the divider transmission mechanism.

Further, the winding head device comprises a nozzle upper gland and a nozzle movable lower cover, the nozzle upper gland is arranged at the top of the nozzle movable lower cover, three movable grooves are formed in the middle and outer cylindrical surfaces of the nozzle movable lower cover, a wire hole outlet mechanism is arranged at the top of the nozzle upper gland, a second moving block is arranged at the bottom of the nozzle movable lower cover, a first nozzle mechanism is arranged inside the nozzle upper gland, a second nozzle mechanism is arranged at the top of the first nozzle mechanism, a third nozzle mechanism is arranged at the bottom of the first nozzle mechanism, a first moving block is arranged at the bottom of the nozzle movable lower cover, nozzle wiring swing arms are arranged among the first moving block, the first nozzle mechanism, the second nozzle mechanism and the third nozzle mechanism respectively, and a nozzle swing arm pin shaft pressing plate is arranged inside the movable grooves, the line hole outlet mechanism comprises a semi-cylinder body, a flange is arranged at the top of the semi-cylinder body, a bottom plate is arranged at the bottom of the semi-cylinder body, line hole outlet nozzles are all arranged on the flange, the semi-cylinder body and the bottom plate, the appearance of the line hole outlet nozzles is a cone and is penetrated by a conical through hole, a waist-shaped counter bore is arranged at the bottom of the first moving block, the first line nozzle mechanism, the second line nozzle mechanism and the third line nozzle mechanism are formed by a slider, the outlet nozzles, a first connecting block, a groove and a second connecting block, the first connecting block and the second connecting block are respectively fixed at two sides of the slider, the groove is arranged at the bottom of the second connecting block, and the outlet nozzles are arranged at the top of the other side of the second connecting block.

Furthermore, the wiring pair movement mechanism comprises a mounting seat, a wiring transmission bevel gear shaft is arranged between the top and the bottom of the mounting seat through a bearing, a through spline hole is formed in the center of the wiring transmission bevel gear shaft, a lifting slider is arranged at the top end of the wiring transmission bevel gear shaft, two guide shafts are connected to two sides of the interior of the lifting slider in a sliding manner, the top ends of the two guide shafts penetrate through the lifting slider and extend to the top of the lifting slider, the bottom ends of the two guide shafts penetrate through the lifting slider and extend to the bottom of the lifting slider, two ends of the two guide shafts extending to the bottom of the lifting slider are arranged on two sides of the top of the mounting seat, a wiring transmission spline shaft is arranged at the bottom end of the wiring transmission bevel gear shaft and penetrates through the wiring transmission bevel gear shaft and extends to the top of the wiring transmission bevel gear shaft, the wiring transmission spline shaft is arranged at the bottom of the lifting slider, one end of the wiring transmission spline shaft extending to the top of the wiring transmission bevel gear shaft is arranged at the bottom of the lifting slider, the spline shaft of the wiring transmission spline shaft is in fit connection with the spline hole, a through groove is formed in the middle of the lifting slider, a sliding connecting block is arranged in the middle of the through groove, a through hole is formed in the sliding connecting block, the upper end of the through hole is a bearing mounting hole, the lower end of the through hole is a threaded hole, a nut is fixedly connected to the top of the wiring transmission spline shaft, the middle of the nut is connected with the lower part of the lifting slider through a bearing, the upper part of the nut is in threaded connection with the threaded hole at the lower end of the sliding connecting block, a nut guide seat is fixedly connected to the bottom of the mounting seat, a first through hole is formed in the wiring transmission spline shaft, the guide nozzle is in a horn-shaped opening, and an oil seal nozzle is arranged on the outer surface of the wiring transmission spline shaft, the bottom of wiring transmission integral key shaft is provided with the direction mouth, the inside of lift slider is provided with wiring power screw rod, the second through-hole has been seted up to the surface of wiring power screw rod, the surface and the type nut of wiring power screw rod are connected, the last top of lift slider is opened has the through-hole of the vertical direction of the coaxial line of with wiring transmission integral key shaft.

Further, the winding lifting transmission mechanism comprises a first bearing seat, a second bearing seat and an eccentric wheel installation main shaft, wherein the first bearing seat and the second bearing seat are coaxially and fixedly connected to a frame of the three-wire parallel winding machine, the eccentric wheel installation main shaft is connected with the first bearing seat and the second bearing seat through bearings and nuts, the eccentric wheel installation main shaft is a hollow shaft with a flange on the right side, a gear strip locking shaft is arranged inside the eccentric wheel installation main shaft, a thickness adjusting gear shaft is arranged inside the gear strip locking shaft, the thickness adjusting gear shaft is sequentially provided with a curved surface crank handle and a first adjusting wheel from left to right, a second adjusting wheel is arranged on the right side of the first adjusting wheel, a synchronizing wheel is rotatably matched on the right side of the second adjusting wheel, the synchronizing wheel is connected to the eccentric wheel installation main shaft through a tensioning sleeve, and the right side of the eccentric wheel installation main shaft is coaxially connected with the eccentric wheel through bolts, the left side of the eccentric wheel is provided with a thickness adjusting gear strip, one side of the thickness adjusting gear strip is provided with a first eccentric wheel connecting piece, the other end of the first eccentric wheel connecting piece is movably connected with an eccentric wheel swing arm, one side of the eccentric wheel swing arm is movably connected with a second eccentric wheel connecting piece, one side of the second eccentric wheel connecting piece is provided with an eccentric wheel lifting slide block connecting seat, the aperture of an eccentric wheel installation main shaft is the same as the aperture of the matching part of the gear strip locking shaft, the eccentric wheel installation main shaft flange is provided with a threaded hole and is coaxially connected with the eccentric wheel through a bolt, the aperture of the shaft of the thickness adjusting gear shaft is the same as the aperture of the matching part of the eccentric wheel installation main shaft, the gear strip locking shaft is a right rectangular hollow shaft flange, the vertical direction of the flange is rectangular in cross section, the horizontal direction of the gear strip locking shaft is trapezoidal, and the gear strip locking shaft exceeds the axis of the eccentric wheel installation main shaft on the left side and is provided with an external thread, the right side of the accumulated thickness adjusting gear shaft exceeds a gear strip locking shaft flange and is of a gear shaft structure, the left side of the accumulated thickness adjusting gear shaft exceeds the gear strip locking shaft and is sequentially provided with a square shaft and a step round shaft from left to right, the vertical direction on the left side of the eccentric wheel is provided with a convex through groove which is symmetrically distributed relative to the center of the eccentric wheel, the back groove accumulated thickness adjusting gear strip is a long strip with a convex shape on the cross section, the convex shape of the accumulated thickness adjusting gear strip is matched and contacted with the surface of the convex shape groove of the eccentric wheel, the left side of the accumulated thickness adjusting gear strip is provided with a vertical trapezoidal groove which is narrow and wide on the right side, the trapezoidal groove of the accumulated thickness adjusting gear strip is matched and contacted with the trapezoidal surface of the gear strip locking shaft rectangular flange, the accumulated thickness adjusting gear strip is provided with a rectangular through hole along the axial direction of an eccentric wheel mounting main shaft, one side of the row through hole is of a long-edge rack shape, and the rack structure and the gear shaft structure of the accumulated thickness adjusting gear shaft constitute gear transmission, the inside square hole that is provided with of curved surface rocking handle, first regulating wheel with the inside hole that all is provided with of second regulating wheel, curved surface rocking handle's square hole is the tight connection with the left end square shaft of long-pending thick regulating gear axle, first regulating wheel hole is the cylinder that has the ladder hole, and hole left side aperture is the same with long-pending thick regulating gear axle cooperation department diameter of axle, and the right side hole matches for screw hole and gear strip locking axle left side screw thread, the cylinder of second regulating wheel hole for threaded through-hole matches with gear strip locking axle left side screw thread.

Further, the main winding mechanism comprises a main spline transmission shaft and a main spline shaft guide seat, the main spline shaft guide seat is sleeved on the outer surface of the main spline transmission shaft, a wire nozzle wiring pull rod is arranged inside the main spline transmission shaft, a main spline shaft guide sleeve upper cover is arranged at the top of the main spline shaft guide seat, a main spline shaft guide copper sleeve is arranged inside the main spline shaft guide seat, a bearing is arranged at the bottom end of the main spline transmission shaft, a main spline shaft bearing seat is arranged at the bottom of the bearing, a power input gear is arranged at the bottom of the main spline shaft bearing seat, and a spline matched with the spline on the main spline transmission shaft is arranged in the center of the power input gear.

Further, the wiring transmission mechanism comprises a motor base, one side of the motor base is provided with a power output gear, one side of the motor base is provided with a power input auxiliary gear, the power output gear is meshed with the power input auxiliary gear, the other side of the motor base is provided with a motor, an output shaft of the motor is fixedly connected with the inner surface of the power output gear, one side of the power input auxiliary gear is provided with a wiring transmission shaft outer bearing seat, the other side of the wiring transmission shaft outer bearing seat is provided with a wiring outer transmission shaft, one end of the wiring external transmission shaft is provided with a coupler, one side of the coupler is connected with a main gear shaft, the outer surface of the main gear shaft is rotatably connected with a wiring bevel gear transmission bearing seat, one side of the wiring bevel gear transmission bearing seat is provided with a wiring bevel gear installation fixing seat, and the wiring bevel gear transmission bearing seat is the wiring bevel gear installation fixing seat.

Further, the divider transmission mechanism comprises a shell, a divider is arranged at the top of the shell, a divider transmission synchronizing wheel is arranged on the front face of the shell, a divider power output gear is arranged inside the shell, the divider transmission synchronizing wheel is a power output gear, and the divider power output gear is a divider transmission synchronizing wheel.

Further, one side at the back of the shell is provided with a gear bearing seat, the front of the gear bearing seat is provided with a middle transition gear connecting shaft, one end of the middle transition gear connecting shaft is provided with a transition gear, and the other end of the middle transition gear connecting shaft is provided with a swing sector gear.

(III) advantageous effects

The utility model discloses following beneficial effect has:

(1) when the eccentric wheel lifting slide block connecting seat in the winding lifting transmission mechanism is not positioned at the topmost end or the bottommost end, the wiring transmission mechanism starts to work reversely, the mechanism moves reversely, the wire nozzle returns to the winding head mechanism, and the transmission mechanism of the co-workers decollator stops working. Go round and begin again, until accomplishing wire winding work, can be quick carry out wire winding work to the stator, the manual operation step is few, great reduction staff's intensity of labour, the error phenomenon is difficult for appearing, and then has reduced the damage of copper line, does benefit to the better wire winding work of stator, has improved the result of use of coiling machine.

(2) This main wire winding motion, through wiring drive mechanism during operation, transmit different power for wiring transmission bevel gear axle, wiring transmission bevel gear axle drives the rotation of wiring transmission integral key shaft, further transmit the rotation for wiring power screw rod, when wiring power screw rod rotates, T type nut makes up and down reciprocating motion together with wiring screw rod nut connecting block under the vertical guiding mechanism effect on the lifting slide, effectual with the power transmission of wire winding lifting drive mechanism input to main wire winding motion, and still provide the up-and-down reciprocating motion power of main wire winding motion center tap wiring pull rod.

(3) The main winding movement mechanism locks the first adjusting wheel; when external force acts on the synchronizing wheel, the synchronizing wheel drives the transmission shaft system to rotate, and then drives the eccentric wheel to rotate, and then drives the first eccentric wheel connecting piece to do rotary motion around the eccentric wheel mounting main shaft, and then drives one end of the eccentric wheel swing arm to do rotary motion, and the other end of the eccentric wheel swing arm to do up-and-down motion, and the other end of the eccentric wheel swing arm to do rotary motion, so that the device can provide different up-and-down motion strokes for the main winding motion mechanism aiming at different motor stator windings, and is suitable for motor stators of different winding types.

Of course, it is not necessary for any particular product to achieve all of the above-described advantages at the same time.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic structural view of the winding head device of fig. 1 according to the present invention;

fig. 3 is a sectional view of the winding head device of fig. 2 according to the present invention;

fig. 4 is a structural assembly view of the first nozzle mechanism, the second nozzle mechanism and the third nozzle mechanism of fig. 2 according to the present invention;

FIG. 5 is a structural assembly view of the line nozzle mechanism of FIG. 4 according to the present invention;

fig. 6 is a schematic structural diagram of the first motion block in fig. 3 according to the present invention;

fig. 7 is a schematic structural view of the wire hole outlet mechanism of fig. 2 according to the present invention;

FIG. 8 is a schematic structural view of the kinematic mechanism of the wiring pair in FIG. 1 according to the present invention;

fig. 9 is a sectional side view of the moving mechanism of the wiring pair of fig. 8 according to the present invention;

fig. 10 is a schematic structural view of the winding elevating transmission mechanism shown in fig. 1 according to the present invention;

fig. 11 is a cross-sectional view of the winding elevating transmission mechanism of fig. 10 according to the present invention;

fig. 12 is a side view of the winding elevating transmission mechanism of fig. 10 according to the present invention;

FIG. 13 is a schematic view of the transmission mechanism of the divider of FIG. 1 according to the present invention;

FIG. 14 is a schematic view of the wiring transmission mechanism of FIG. 1 according to the present invention;

fig. 15 is a schematic structural view of the main winding mechanism of fig. 1 according to the present invention;

fig. 16 is a sectional view of the main winding mechanism of fig. 15 according to the present invention.

In the figure, a 101-winding head device, a 1 a-nozzle upper gland, a 2 a-nozzle movable lower cover, a 3 a-movable groove, a 4 a-line hole outlet mechanism, a 41 a-semi-cylinder, a 42 a-flange, a 43 a-bottom plate, a 44 a-line hole outlet nozzle, a 5 a-second movable block, a 6 a-first nozzle mechanism, a 7 a-second nozzle mechanism, an 8 a-third nozzle mechanism, a 9 a-first movable block, a 10 a-nozzle wiring swing arm, a 11 a-waist-shaped counter bore, a 12 a-sliding block, a 13 a-line outlet nozzle, a 14 a-first connecting block, a 15 a-groove, a 16 a-second connecting block, a 17 a-nozzle swing arm pin shaft pressure plate, a 102-wiring pair movement mechanism, a 1 b-mounting seat, a, 2 b-nut guide seat, 3 b-wiring transmission bevel gear shaft, 4 b-lifting slide block, 5 b-guide shaft, 6 b-wiring transmission spline shaft, 7 b-oil seal nozzle, 8 b-guide nozzle, 9 b-first through hole, 10 b-connecting block, 11 b-wiring power screw, 12 b-second through hole, 13b-T type nut, 103-winding lifting transmission mechanism, 1 c-first bearing seat, 2 c-second bearing seat, 3 c-eccentric wheel mounting main shaft, 4 c-gear bar locking shaft, 5 c-thickness adjusting gear shaft, 6 c-curved surface rocking handle, 7 c-first adjusting wheel, 8 c-second adjusting wheel, 9 c-synchronizing wheel, 10 c-tensioning sleeve, 11 c-eccentric wheel, 12 c-thickness adjusting gear rack, 13 c-first eccentric wheel connecting piece, 14 c-eccentric wheel swing arm, 15 c-second eccentric wheel connecting piece, 16 c-eccentric wheel lifting slide block connecting seat, 104-main winding mechanism, 1d main spline transmission shaft, 2 d-main spline shaft guide seat, 3 d-wire nozzle wiring pull rod, 4 d-main spline shaft guide upper cover, 5 d-main spline shaft guide copper sleeve, 6 d-bearing, 7 d-main spline shaft bearing seat, 8 d-power input gear, 105-wiring transmission mechanism, 1 e-motor seat, 2 e-power output gear, 3 e-power input auxiliary gear, 4 e-motor, 5 e-wiring transmission shaft outer bearing seat, 6 e-wiring outer transmission shaft, 7 e-coupler, The device comprises an 8 e-main gear shaft, a 9 e-wiring bevel gear transmission bearing seat, a 10 e-wiring bevel gear installation fixing seat, a 106-divider transmission mechanism, a 1 f-shell, a 2 f-divider, a 3 f-divider transmission synchronizing wheel, a 4 f-divider power output gear, a 5 f-gear bearing seat, a 6 f-middle transition gear connecting shaft, a 7 f-middle transition gear and an 8 f-swinging sector gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "open hole", "upper", "lower", "thickness", "top", "middle", "length", "inner", "around", and the like, indicate positional or positional relationships, are merely for convenience in describing the present invention and to simplify the description, and do not indicate or imply that the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Referring to fig. 1 to 16, an embodiment of the present invention provides a technical solution: a main winding movement mechanism comprises a winding head device 101, a wiring auxiliary movement mechanism 102, a winding lifting transmission mechanism 103, a main winding mechanism 104, a wiring transmission mechanism 105 and a divider transmission mechanism 106, wherein the winding head device 101 is arranged at the top of the main winding mechanism 104, the main winding mechanism 104 is arranged at the top of the wiring auxiliary movement mechanism 102, the wiring transmission mechanism 105 is arranged at one side of the wiring auxiliary movement mechanism 102, the divider transmission mechanism 106 is arranged at the front of the wiring auxiliary movement mechanism 102, the winding lifting transmission mechanism 103 is arranged at the front of the wiring auxiliary movement mechanism 102, and the winding lifting transmission mechanism 103 is arranged at the bottom of the divider transmission mechanism 106.

Referring to fig. 1-7, the wire winding head device 101 includes a nozzle upper gland 1a and a nozzle movable lower cover 2a, the nozzle upper gland 1a is disposed on the top of the nozzle movable lower cover 2a, three movable grooves 3a are disposed on the middle and outer cylindrical surfaces of the nozzle movable lower cover 2a, a wire hole outlet mechanism 4a is disposed on the top of the nozzle upper gland 1a, a second movable block 5a is disposed on the bottom of the nozzle movable lower cover 2a, a first nozzle mechanism 6a is disposed inside the nozzle upper gland 1a, a second nozzle mechanism 7a is disposed on the top of the first nozzle mechanism 6a, a third nozzle mechanism 8a is disposed on the bottom of the first nozzle mechanism 6a, a first movable block 9a is disposed on the bottom of the nozzle movable lower cover 2a, and the first movable block 9a is respectively connected to the first nozzle mechanism 6a and the first nozzle mechanism 6a, A wire nozzle wiring swing arm 10a is arranged between the second wire nozzle mechanism 7a and the third wire nozzle mechanism 8a, a wire nozzle swing arm pin pressing plate 17a is arranged inside the movable groove 3a, the wire hole outlet mechanism 4a comprises a semi-cylinder 41a, a flange 42a is arranged at the top of the semi-cylinder 41a, a bottom plate 43a is arranged at the bottom of the semi-cylinder 41a, a wire hole outlet nozzle 44a is arranged on each of the flange 42a, the semi-cylinder 41a and the bottom plate 43a, the wire hole outlet nozzle 44a is conical in shape and penetrates through a conical through hole, a waist-shaped counter bore 11a is arranged at the bottom of the first moving block 9a, the first wire nozzle mechanism 6a, the second wire nozzle mechanism 7a and the third wire nozzle mechanism 8a are respectively composed of a sliding block 12a, a wire outlet nozzle 13a, a first connecting block 14a, a groove 15a and a second connecting block 16a, the first connecting block 14a and the second connecting block 16a are respectively fixed at two sides of the sliding block 12a, the groove 15a is formed in the bottom of the second connecting block 16a, and the wire outlet nozzle 13a is formed in the top of the other side of the second connecting block 16 a;

the outer cylindrical surface of the wire nozzle movable lower cover 2a is provided with a movable groove 3a, the groove corresponds to the hinging position of a wire nozzle wiring swing arm of a second wire nozzle mechanism 7a and is used for connecting a wire nozzle swing arm pin shaft pressing plate 17a, the hinging structure positions of the wire nozzle wiring swing arms 10a of a first wire nozzle mechanism 6a and a third wire nozzle mechanism 8a are very close, the middle is not enough to assemble the wire nozzle wiring swing arm 10a hinging structure of the wire nozzle mechanism, so the outer cylindrical surface of the wire nozzle movable lower cover 2a is provided with a movable groove 3 a; the three wire outlet nozzles of the winding die can synchronously stretch and retract to perform wire arrangement in the winding process, so that the mechanism effectively solves the problem of overhigh slot filling rate of the motor stator to a great extent, the winding of the motor stator is more compact, the shape is more attractive, the performance of the motor is effectively improved, and the probability of defective products is reduced; the upper end of a main spline transmission shaft in the main winding movement mechanism is provided with a flange, a nozzle movable lower cover is connected with the main spline transmission shaft of the main winding movement mechanism through a bolt, the lower end thread of a second movement block 5a is in threaded connection with an inner thread hole at the upper end of a nozzle wiring pull rod in the main winding movement mechanism, and a waist-shaped counter bore at the lower end of a first movement block 9a is in waist-shaped shaft connection with the cross section at the upper end of the nozzle wiring pull rod in the main winding movement mechanism; when the flange 42a of the thread hole outlet mechanism 4a is connected with the nozzle upper gland 1a, the lower end semi-cylinder 41a is symmetrically arranged relative to the symmetrical plane of the second nozzle mechanism 7a, and the side without the cylinder is close to the winding nozzle.

Referring to fig. 8-9, the wiring pair movement mechanism 102 includes a mounting base 1b, a wiring transmission bevel gear shaft 3b is disposed between the top and the bottom of the mounting base 1b through a bearing, a through spline hole is formed in the center of the wiring transmission bevel gear shaft 3b, a lifting slider 4b is disposed at the top end of the wiring transmission bevel gear shaft 3b, two guide shafts 5b are slidably connected to both sides of the inside of the lifting slider 4b, the top ends of the two guide shafts 5b penetrate through the lifting slider 4b and extend to the top of the lifting slider 4b, the bottom ends of the two guide shafts 5b penetrate through the lifting slider 4b and extend to the bottom of the lifting slider 4b, both ends of the two guide shafts 5b extending to the bottom of the lifting slider 4b are disposed at both sides of the top of the mounting base 1b, the bottom of the wiring transmission bevel gear shaft 3b is provided with a wiring transmission spline shaft 6b, the wiring transmission spline shaft 6b penetrates through the wiring transmission bevel gear shaft 3b and extends to the top of the wiring transmission bevel gear shaft 3b, one end of the wiring transmission spline shaft 6b, which extends to the top of the wiring transmission bevel gear shaft 3b, is arranged at the bottom of the lifting slider 4b, a spline shaft and a spline hole of the wiring transmission spline shaft 6b are connected in a matched manner, a through groove is formed in the middle of the lifting slider 4b, a sliding connecting block 10b is arranged in the middle of the through groove, a through hole is formed in the sliding connecting block 10b, the upper end of the through hole is a bearing mounting hole, the lower end of the through hole is a threaded hole, a T-shaped nut 13b is fixedly connected to the top of the wiring transmission spline shaft 6b, and the middle of the T-shaped nut 13b is connected with the lower part of the lifting slider 4b through a bearing, the upper portion of the T-shaped nut 13b is in threaded connection with a threaded hole at the lower end of the sliding connection block 10b, the bottom of the installation base 1b is fixedly connected with a nut guide base 2b, a first through hole 9b is formed in the wiring transmission spline shaft 6b, the guide nozzle 8b is a horn-shaped opening, an oil seal nozzle 7b is arranged on the outer surface of the wiring transmission spline shaft 6b, a guide nozzle 8b is arranged at the bottom end of the wiring transmission spline shaft 6b, a wiring power screw 11b is arranged in the lifting slider 4b, a second through hole 12b is formed in the outer surface of the wiring power screw 11b, the outer surface of the wiring power screw 11b is connected with the T-shaped nut 13b, and a through hole which is coaxial with the wiring transmission spline shaft 6b and is in the vertical direction is formed in the top end of the lifting slider 4 b;

the back of the lifting slide block 4b is connected with an eccentric wheel lifting slide block connecting seat which is fixedly connected with an eccentric wheel lifting slide block connecting seat in the winding lifting transmission mechanism through a bolt, and is also connected with the lifting slide block 4b through a bolt connecting eccentric wheel; the oil seal nozzle 7b is fixedly connected with the frame; the mounting seat 1b is fixedly connected with the frame through a bolt; the nut guide seat 2b is used for connecting a wiring transmission mechanism; a guide shaft support and a guide shaft 5b are arranged on two sides of the top of the mounting seat 1b, and the double-guide-rod structure ensures that the lifting slide block 4b only reciprocates up and down; the top of the lifting slide block 4b is connected with a main spline transmission shaft in the main winding movement mechanism through a bearing nut, and the top of the lifting slide block 4b is connected with a nozzle wiring pull rod bearing nut in the main winding movement mechanism; the upper end of the wiring transmission bevel gear shaft 3b is of a bevel gear structure at the lower end of the shaft, a step through hole is formed in the shaft center, the upper end of the wiring transmission bevel gear shaft is connected with the winding guide shaft mounting seat 1b through a bearing nut, a spline nut is assembled on the lower end hole of the wiring transmission bevel gear shaft 3b, and transmission force is transmitted to the spline nut by the wiring transmission bevel gear shaft 3b through a key; the wiring transmission spline shaft 6b is connected with the spline nut in a matched mode, and the connection mode can ensure that the spline nut transmits the rotation torque to the wiring transmission spline shaft 6b and can ensure that the wiring transmission spline shaft 6b slides up and down in the spline nut; the spline structure at the uppermost end of the upper end of the wiring transmission spline shaft 6b is connected with the spline structure of the hole on the wiring power screw 11b, the torsion is transmitted to a wiring power screw 11b through the connecting wiring transmission spline shaft 6b, the wiring power screw 11b is a step shaft, the lower end of the wiring power screw is of a shaft structure, the upper end of the wiring power screw is provided with external threads, the lower end of the wiring power screw is connected with a hole at the lower end of the center of an eccentric wheel connecting lifting slider 4b through a bearing nut, the external threads at the upper end of the wiring power screw 11b are connected with a T-shaped nut 13b, the T-shaped nut 13b is connected with a wiring screw nut connecting block 10b through a bolt, the wiring screw nut connecting block 10b is connected with the lifting slider 4b in a sliding manner, a vertical guide mechanism is arranged on the lifting slider 4b to ensure that the wiring screw nut connecting block 10b can only vertically move up and down, a through hole is formed in the wiring screw nut connecting block 10b, and the upper end of the hole is connected with a wire nozzle wiring pull rod in a main winding movement mechanism through the bearing nut; the upper end hole of the center of the lifting slide block 4b is connected with a main spline transmission shaft in the main winding movement mechanism through a bearing nut; when the winding lifting transmission mechanism works, the connecting seat of the eccentric wheel lifting slide block 4b is driven to do up-and-down reciprocating motion, and the connecting seat of the eccentric wheel lifting slide block 4b drives the lifting slide block 4b, the T-shaped nut 13b, the wiring screw nut connecting block 10b, the wiring transmission spline shaft 6b, the lower wire inlet guide nozzle 8b and other structures to do up-and-down reciprocating motion; when the wiring transmission mechanism works, different forces are transmitted to the wiring transmission bevel gear shaft 3b, the wiring transmission bevel gear shaft 3b drives the wiring transmission spline shaft 6b to rotate and further transmits the rotation to the wiring power screw 11b, and when the wiring power screw 11b rotates, the T-shaped nut 13b and the wiring screw nut connecting block 10b reciprocate up and down under the action of the vertical guide mechanism on the lifting slide block 4 b; the force input by the winding lifting transmission mechanism is effectively transmitted to the main winding movement mechanism, and the up-and-down reciprocating force is also provided for the wire nozzle wiring pull rod in the main winding movement mechanism.

Referring to fig. 10-12, the winding lifting transmission mechanism 103 includes a first bearing seat 1c, a second bearing seat 2c, and an eccentric wheel mounting spindle 3c, the first bearing seat 1c and the second bearing seat 2c are coaxially and fixedly connected to a frame of a three-wire doubling winder, the eccentric wheel mounting spindle 3c is connected to the first bearing seat 1c and the second bearing seat 2c through a bearing and a nut, the eccentric wheel mounting spindle 3c is a hollow shaft with a flange at the right side, a gear locking shaft 4c is arranged inside the eccentric wheel mounting spindle 3c, a thickness adjusting gear shaft 5c is arranged inside the gear locking shaft 4c, the thickness adjusting gear shaft 5c is sequentially provided with a curved surface crank 6c and a first adjusting wheel 7c from left to right, a second adjusting wheel 8c is arranged at the right side of the first adjusting wheel 7c, and a synchronizing wheel 9c is rotatably arranged at the right side of the second adjusting wheel 8c, the synchronizing wheel 9c is connected to an eccentric wheel mounting main shaft 3c through a tensioning sleeve 10c, the right side of the eccentric wheel mounting main shaft 3c is coaxially connected with an eccentric wheel 11c through a bolt, the left side of the eccentric wheel 11c is provided with a thickness adjusting gear bar 12c, one side of the thickness adjusting gear bar 12c is provided with a first eccentric wheel connecting piece 13c, the other end of the first eccentric wheel connecting piece 13c is movably connected with an eccentric wheel swing arm 14c, one side of the eccentric wheel swing arm 14c is movably connected with a second eccentric wheel connecting piece 15c, one side of the second eccentric wheel connecting piece 15c is provided with an eccentric wheel lifting slide block connecting seat 16c, the aperture of the eccentric wheel mounting main shaft 3c is the same as the matching shaft diameter of the gear bar locking shaft 4c, a threaded hole is formed in a flange of the eccentric wheel mounting main shaft 3c, and the eccentric wheel 11c is coaxially connected through a bolt, the axial diameter of the accumulated thickness adjusting gear shaft 5c is the same as the aperture of the matching part of the eccentric wheel mounting main shaft 3c, the gear strip locking shaft 4c is a rectangular flange hollow shaft on the right side, the section of the flange in the vertical direction is rectangular, the section of the gear strip locking shaft in the horizontal direction is trapezoidal, the gear strip locking shaft 4c is provided with an external thread on the shaft exceeding the eccentric wheel mounting main shaft 3c on the left side, the flange exceeding the gear strip locking shaft 4c on the right side of the accumulated thickness adjusting gear shaft 5c is of a gear shaft structure, the left side exceeding gear strip locking shaft 4c on the left side of the accumulated thickness adjusting gear shaft 5c is sequentially provided with a square shaft and a step round shaft from left to right, the vertical direction on the left side of the eccentric wheel 11c is provided with convex through grooves which are symmetrically distributed relative to the center of the eccentric wheel 11c, the back groove accumulated thickness adjusting gear strip 12c is a long strip with a convex shape in cross section, and the convex shape of the accumulated thickness adjusting gear strip 12c is matched and contacted with the convex grooves on the surface of the eccentric wheel 11c, the left side of a thickness adjusting gear strip 12c is provided with a vertical trapezoid-shaped groove, the left side is narrow, the right side is wide, the trapezoid-shaped groove of the thickness adjusting gear strip 12c is in contact connection with a trapezoid surface of a rectangular flange of a gear strip locking shaft 4c, the thickness adjusting gear strip 12c is provided with a rectangular through hole along the axial direction of an eccentric wheel mounting main shaft 3c, the long edge on one side of the rectangular through hole is in a rack shape, the rack structure and a gear shaft structure of a thickness adjusting gear shaft 5c form gear transmission, a square hole is arranged inside a curved surface rocking handle 6c, inner holes are arranged inside a first adjusting wheel 7c and a second adjusting wheel 8c, the square hole of the curved surface rocking handle 6c is tightly connected with the square shaft at the left end of the thickness adjusting gear shaft 5c, the inner hole of the first adjusting wheel 7c is a cylinder with a stepped inner hole, the left side aperture of the inner hole is the same as the axial diameter of the matching part of the thickness adjusting gear shaft 5c, the right-hand opening matches for screw hole and gear rack locking shaft 4c left side screw thread, the cylinder of second regulating wheel 8c hole for there being the screw thread through-hole matches with gear rack locking shaft 4c left side screw thread.

Referring to fig. 15-16, the main winding mechanism 104 includes a main spline shaft 1d and a main spline shaft guide seat 2d, the main spline shaft guide seat 2d is sleeved on an outer surface of the main spline shaft 1d, a wire mouth wiring pull rod 3d is disposed inside the main spline shaft 1d, a main spline shaft guide upper cover 4d is disposed on a top of the main spline shaft guide seat 2d, a main spline shaft guide copper sleeve 5d is disposed inside the main spline shaft guide seat 2d, a bearing 6d is disposed at a bottom end of the main spline shaft 1d, a main spline shaft bearing seat 7d is disposed at a bottom of the bearing 6d, a power input gear 8d is disposed at a bottom of the main spline shaft bearing seat 7d, and a spline matched with the spline on the main spline shaft 1d is disposed at a center of the power input gear 8 d. The inner surface of the power input gear 8d is arranged on the outer surface of the main spline transmission shaft 1 d;

the main spline transmission shaft 1d is connected with a main spline shaft guide copper sleeve 5d in a sliding mode, the outer diameter of the main spline transmission shaft 1d is equal to the inner diameter of a hole of the main spline shaft guide copper sleeve 5d, the main spline transmission shaft 1d is in transmission connection with a main spline shaft guide seat 2d through a bearing, the main spline transmission shaft 1d is a hollow long shaft with a flange, the outer part of the middle section of the shaft is of a spline structure, a flange at the uppermost end is fixedly connected with a wire nozzle movable lower cover 2a in a wire winding head, and the lower end of the shaft is connected with an upper hole of an eccentric wheel connection lifting slide block 4b in the wiring pair movement mechanism 102 through a bearing nut; the power input gear 8d is an external gear with a spline hole at the center, the spline hole at the center is matched with the spline of the main spline transmission shaft 1d, and the spline matching can ensure that the main spline transmission shaft 1d can do up-and-down reciprocating motion and also can do reciprocating rotary motion. The wire nozzle wiring pull rod 3d is assembled in a coaxial through hole of the main spline transmission shaft 1d, the wire nozzle wiring pull rod 3d is a hollow long shaft, the outer diameter of the wire nozzle wiring pull rod 3d is equal to the aperture of the matched part of the main spline transmission shaft 1d, the lower end part of the shaft exceeds the lower end part of the main spline transmission shaft 1d and is connected with a middle hole of an eccentric wheel connecting lifting slide block 4b in the wiring auxiliary movement mechanism 102 through a bearing nut, the upper end surface of the wire nozzle wiring pull rod 3d exceeds the upper end surface of the main spline transmission shaft 1d, the upper end surface of the wire nozzle wiring pull rod 3d is contacted with the lower end surface of a first movement block 9a in the winding head, a second movement block 5a of the wire nozzle wiring in the winding head is connected with the upper end of the wire nozzle wiring pull rod 3d in a threaded manner, and the first movement block 9a of the wire nozzle wiring in the winding head is fixed between the first movement block and the second movement block.

Referring to fig. 14, the wiring transmission mechanism 105 includes a motor base 1e, a power output gear 2e is disposed on one side of the motor base 1e, a power input auxiliary gear 3e is disposed on one side of the motor base 1e, the power output gear 2e is engaged with the power input auxiliary gear 3e, a motor 4e is disposed on the other side of the motor base 1e, an output shaft of the motor 4e is fixedly connected to an inner surface of the power output gear 2e, a wiring transmission shaft outer bearing seat 5e is disposed on one side of the power input auxiliary gear 3e, a wiring outer transmission shaft 6e is disposed on the other side of the wiring transmission shaft outer bearing seat 5e, a coupling 7e is disposed at one end of the wiring outer transmission shaft 6e, a main gear shaft 8e is connected to one side of the coupling 7e, a wiring bevel gear transmission bearing seat 9e is rotatably connected to an outer surface of the main gear shaft 8e, one side of the wiring bevel gear transmission bearing seat 9e is provided with a wiring bevel gear installation fixing seat 10e, and the wiring bevel gear transmission bearing seat 9e is the wiring bevel gear installation fixing seat.

Referring to fig. 13, the divider transmission mechanism 106 includes a housing 1f, a divider 2f is disposed at the top of the housing 1f, a divider transmission synchronizing wheel 3f is disposed on the front of the housing 1f, a divider power output gear 4f is disposed inside the housing 1f, the divider transmission synchronizing wheel 3f is a power output gear, and the divider power output gear 4f is a divider transmission synchronizing wheel.

A gear bearing seat 5f is arranged on one side of the back surface of the shell 1f, a middle transition gear connecting shaft 6f is arranged on the front surface of the gear bearing seat, a transition gear 7f is arranged at one end of the middle transition gear connecting shaft 6f, and a swing sector gear 8f is arranged at the other end of the middle transition gear connecting shaft 6 f;

the decollator is fixedly connected with a winding machine frame, the decollator transmission synchronizing wheel 3f is fixedly connected with an input shaft of the decollator, a power output gear 4f of the decollator and a middle transition gear form a gear transmission mechanism, a gear bearing seat is fixedly connected with the winding machine frame, the gear bearing seat is connected with a middle transition gear connecting shaft 6f through a bearing, the lower end of the middle transition gear connecting shaft 6f is fixedly connected with a middle transition gear 7f, and the upper end of the middle transition gear connecting shaft is fixedly connected with a swinging sector gear 8 f; the divider transmission mechanism 106 is engaged with the power input gear 8d in the main winding mechanism through the swing sector gear 8f to form a gear transmission mechanism.

When the device is used, when the eccentric wheel lifting slider connecting seat 16c in the winding lifting transmission mechanism 103 reaches the topmost end or the bottommost end, the wiring auxiliary motion mechanism 102, the main winding motion mechanism and the winding head are driven to reach the topmost end or the bottommost end, the wiring transmission mechanism 105 starts to work, the wiring transmission bevel gear shaft 3b is driven to rotate by the wiring transmission gear 105, the wiring transmission spline shaft 6b is driven to rotate, the wiring screw and nut connecting block 10b in threaded connection with the wiring transmission bevel gear shaft is driven to vertically move upwards, the nozzle wiring pull rod 3d in the winding motion mechanism fixedly connected with the wiring screw and nut connecting block 10b in the vertical direction is driven to vertically move upwards, the first motion block 9a of nozzle wiring of the winding head is driven to vertically move upwards, and the nozzle wiring swing arm 10a of the winding head is driven to work, so that the winding mechanism radially moves, after the nozzle reaches the outermost end position, the divider transmission mechanism 106 starts to work to drive the main winding movement mechanism and the winding head to swing back and forth; when the eccentric wheel lifting slide block connecting seat 16c in the winding lifting transmission mechanism 103 is not at the topmost end or the bottommost end, the wiring transmission mechanism 105 starts to work reversely, the mechanism acts reversely, so that the nozzle returns to the winding head mechanism, and the transmission mechanism of the co-workers divider stops working; and repeating the steps until the winding work is finished.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not exhaustive and do not limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (8)

1. The utility model provides a main wire winding motion, includes wire winding head device (101), wiring pair motion (102), wire winding lift drive mechanism (103), main wire winding mechanism (104), wiring drive mechanism (105) and decollator drive mechanism (106), its characterized in that: the winding head device (101) is arranged at the top of the main winding mechanism (104), the main winding mechanism (104) is arranged at the top of the auxiliary wiring movement mechanism (102), the wiring transmission mechanism (105) is arranged at one side of the auxiliary wiring movement mechanism (102), the divider transmission mechanism (106) is arranged on the front surface of the auxiliary wiring movement mechanism (102), the winding lifting transmission mechanism (103) is arranged on the front surface of the auxiliary wiring movement mechanism (102), and the winding lifting transmission mechanism (103) is positioned at the bottom of the divider transmission mechanism (106).

2. A main winding movement mechanism according to claim 1, wherein: the winding head device (101) comprises a nozzle upper gland (1a) and a nozzle movable lower cover (2a), the nozzle upper gland (1a) is arranged at the top of the nozzle movable lower cover (2a), three movable grooves (3a) are formed in the middle outer cylindrical surface of the nozzle movable lower cover (2a), a wire hole wire outlet mechanism (4a) is arranged at the top of the nozzle upper gland (1a), a second moving block (5a) is arranged at the bottom of the nozzle movable lower cover (2a), a first nozzle mechanism (6a) is arranged inside the nozzle upper gland (1a), a second nozzle mechanism (7a) is arranged at the top of the first nozzle mechanism (6a), a third nozzle mechanism (8a) is arranged at the bottom of the first nozzle mechanism (6a), and a first moving block (9a) is arranged at the bottom of the nozzle movable lower cover (2a), the line mouth wiring mechanism is characterized in that a line mouth wiring swing arm (10a) is arranged between the first motion block (9a) and the first line mouth mechanism (6a), the second line mouth mechanism (7a) and the third line mouth mechanism (8a) respectively, a line mouth swing arm pin shaft pressing plate (17a) is arranged inside the movable groove (3a), the line hole wiring mechanism (4a) comprises a semi-cylinder (41a), a flange (42a) is arranged at the top of the semi-cylinder (41a), a bottom plate (43a) is arranged at the bottom of the semi-cylinder (41a), line hole wiring nozzles (44a) are arranged on the flange (42a), the semi-cylinder (41a) and the bottom plate (43a), the appearance of the line hole wiring nozzles (44a) is a cone and penetrates through a conical through hole, a waist-shaped holes (11a) are arranged at the bottom of the first motion block (9a), the first line mouth mechanism (6a), Second line mouth mechanism (7a) and third line mouth mechanism (8a) constitute by slider (12a), play line mouth (13a), first connecting block (14a), recess (15a) and second connecting block (16a), first connecting block (14a) and second connecting block (16a) are fixed in respectively the both sides of slider (12a), recess (15a) are seted up in the bottom of second connecting block (16a), play line mouth (13a) set up in the top of the opposite side of second connecting block (16 a).

3. A main winding movement mechanism according to claim 1, wherein: the wiring pair movement mechanism (102) comprises a mounting seat (1b), a wiring transmission bevel gear shaft (3b) is arranged between the top and the bottom of the mounting seat (1b) through a bearing, a through spline hole is formed in the center of the wiring transmission bevel gear shaft (3b), a lifting slider (4b) is arranged at the top end of the wiring transmission bevel gear shaft (3b), two guide shafts (5b) are connected to two sides of the inside of the lifting slider (4b) in a sliding manner, the top ends of the two guide shafts (5b) penetrate through the lifting slider (4b) and extend to the top of the lifting slider (4b), the bottom ends of the two guide shafts (5b) penetrate through the lifting slider (4b) and extend to the bottom of the lifting slider (4b), and two ends of the bottom of the two guide shafts (5b) extending to the lifting slider (4b) are arranged on two sides of the top of the mounting seat (1b), the bottom of the wiring transmission bevel gear shaft (3b) is provided with a wiring transmission spline shaft (6b), the wiring transmission spline shaft (6b) penetrates through the wiring transmission bevel gear shaft (3b) and extends to the top of the wiring transmission bevel gear shaft (3b), one end of the top of the wiring transmission bevel gear shaft (3b) extends to the bottom of the lifting slide block (4b), the spline shaft of the wiring transmission spline shaft (6b) is matched and connected with the spline hole, the middle of the lifting slide block (4b) is provided with a through groove, the middle of the through groove is provided with a sliding connection block (10b), a through hole is arranged in the sliding connection block (10b), the upper end of the through hole is a bearing installation hole, the lower end of the through hole is a threaded hole, the top of the wiring transmission spline shaft (6b) is fixedly connected with a T-shaped nut (13b), the middle of the T-shaped nut (13b) is connected with the lower part of the lifting slide block (4b) through a bearing, the upper part of the T-shaped nut (13b) is connected with a threaded hole at the lower end of the sliding connecting block (10b) through threads, the bottom of the mounting seat (1b) is fixedly connected with a nut guide seat (2b), a first through hole (9b) is formed in the wiring transmission spline shaft (6b), a guide nozzle (8b) is arranged at the bottom end of the wiring transmission spline shaft (6b), the guide nozzle (8b) adopts a horn-shaped opening, the outer surface of the wire-distributing transmission spline shaft (6b) is provided with an oil seal nozzle (7b), a wiring power screw rod (11b) is arranged in the lifting slide block (4b), the outer surface of the wiring power screw rod (11b) is provided with a second through hole (12b), the outer surface of the wiring power screw rod (11b) is connected with a T-shaped nut (13b), and a through hole which is coaxial with the wiring transmission spline shaft (6b) and is in the vertical direction is formed at the top end of the lifting slide block (4 b).

4. A main winding movement mechanism according to claim 1, wherein: the winding lifting transmission mechanism (103) comprises a first bearing seat (1c), a second bearing seat (2c) and an eccentric wheel mounting main shaft (3c), the first bearing seat (1c) and the second bearing seat (2c) are coaxially and fixedly connected to a rack of a three-wire doubling winding machine, the eccentric wheel mounting main shaft (3c) is connected with the first bearing seat (1c) and the second bearing seat (2c) through a bearing and a nut, the eccentric wheel mounting main shaft (3c) is a hollow shaft with a flange on the right side, a gear bar locking shaft (4c) is arranged inside the eccentric wheel mounting main shaft (3c), a product thickness adjusting gear shaft (5c) is arranged inside the gear bar locking shaft (4c), a curved surface rocking handle (6c) and a first adjusting wheel (7c) are sequentially arranged from left to right on the product thickness adjusting gear shaft (5c), and a second adjusting wheel (8c) is arranged on the right side of the first adjusting wheel (7c), the right side of the second adjusting wheel (8c) is rotatably matched with a synchronizing wheel (9c), the synchronizing wheel (9c) is connected to an eccentric wheel mounting main shaft (3c) through a tensioning sleeve (10c), the right side of the eccentric wheel mounting main shaft (3c) is coaxially connected with an eccentric wheel (11c) through a bolt, the left side of the eccentric wheel (11c) is provided with a thickness adjusting gear rack (12c), one side of the thickness adjusting gear rack (12c) is provided with a first eccentric wheel connecting piece (13c), the other end of the first eccentric wheel connecting piece (13c) is movably connected with an eccentric wheel swing arm (14c), one side of the eccentric wheel swing arm (14c) is movably connected with a second eccentric wheel connecting piece (15c), one side of the second eccentric wheel connecting piece (15c) is provided with a lifting eccentric wheel slide block connecting seat (16c), the aperture of the eccentric wheel mounting main shaft (3c) is the same as the matching shaft diameter of the gear rack locking shaft (4c), the flange of the eccentric wheel installation main shaft (3c) is provided with a threaded hole and is coaxially connected with an eccentric wheel (11c) through a bolt, the shaft diameter of the accumulated thickness adjusting gear shaft (5c) is the same as the hole diameter of the matching part of the eccentric wheel installation main shaft (3c), the gear strip locking shaft (4c) is a right rectangular flange hollow shaft, the section of the flange in the vertical direction is rectangular, the section of the horizontal direction is trapezoidal, the gear strip locking shaft (4c) exceeds the shaft of the eccentric wheel installation main shaft (3c) on the left side and is provided with an external thread, the flange of the accumulated thickness adjusting gear shaft (5c) exceeds the gear strip locking shaft (4c) on the right side is of a gear shaft structure, the left side of the accumulated thickness adjusting gear shaft (5c) exceeds the gear strip locking shaft (4c) and is sequentially provided with a square shaft and a step round shaft from left side to right side, the vertical direction of the eccentric wheel (11c) is provided with a convex through groove, the convex through grooves are symmetrically distributed relative to the center of the eccentric wheel (11c), the back groove thickness adjusting gear strip (12c) is a long strip with a cross section in a convex shape, the thickness adjusting gear strip (12c) is in convex contact with the surface of the convex groove of the eccentric wheel (11c), the left side of the thickness adjusting gear strip (12c) is provided with a vertical trapezoidal groove, the left side is narrow, the right side is wide, the trapezoidal groove of the thickness adjusting gear strip (12c) is in contact with the trapezoidal surface of the rectangular flange of the gear strip locking shaft (4c), the thickness adjusting gear strip (12c) is provided with a rectangular through hole along the axial direction of the eccentric wheel mounting main shaft (3c), the long edge on one side of the rectangular through hole is in a rack shape, the rack structure and the gear shaft structure of the thickness adjusting gear shaft (5c) form gear transmission, a square hole is arranged inside the curved surface rocking handle (6c), inner holes are arranged inside the first adjusting wheel (7c) and the second adjusting wheel (8c), the square hole of curved surface rocking handle (6c) is tightly connected with the left end square shaft of amass adjusting gear axle (5c), the cylinder of first regulating wheel (7c) hole for having the ladder hole, and hole left side aperture is the same with amass adjusting gear axle (5c) cooperation department shaft diameter, and the right side hole cooperatees for screw hole and gear strip locking axle (4c) left side screw thread, the cylinder of second regulating wheel (8c) hole for having the screw thread through-hole cooperatees with gear strip locking axle (4c) left side screw thread.

5. A main winding movement mechanism according to claim 1, wherein: the main winding mechanism (104) comprises a main spline transmission shaft (1d) and a main spline shaft guide seat (2d), the main spline shaft guide seat (2d) is sleeved on the outer surface of the main spline transmission shaft (1d), a wire nozzle wiring pull rod (3d) is arranged inside the main spline transmission shaft (1d), a main spline shaft guide sleeve upper cover (4d) is arranged at the top of the main spline shaft guide seat (2d), a main spline shaft guide copper sleeve (5d) is arranged inside the main spline shaft guide seat (2d), a bearing (6d) is arranged at the bottom end of the main spline transmission shaft (1d), a main spline shaft bearing seat (7d) is arranged at the bottom of the bearing (6d), a power input gear (8d) is arranged at the bottom of the main spline shaft bearing seat (7d), a spline matched with the main spline transmission shaft (1d) is arranged at the center of the power input gear (8d), the inner surface of the power input gear (8d) is arranged on the outer surface of the main spline transmission shaft (1 d).

6. A main winding movement mechanism according to claim 1, wherein: the wiring transmission mechanism (105) comprises a motor base (1e), a power output gear (2e) is arranged on one side of the motor base (1e), a power input auxiliary gear (3e) is arranged on one side of the motor base (1e), the power output gear (2e) is meshed with the power input auxiliary gear (3e), a motor (4e) is arranged on the other side of the motor base (1e), an output shaft of the motor (4e) is fixedly connected with the inner surface of the power output gear (2e), a wiring transmission shaft outer bearing seat (5e) is arranged on one side of the power input auxiliary gear (3e), a wiring outer transmission shaft (6e) is arranged on the other side of the wiring transmission shaft outer bearing seat (5e), a coupler (7e) is arranged at one end of the wiring outer transmission shaft (6e), and a main gear shaft (8e) is connected to one side of the coupler (7e), the outer surface of the main gear shaft (8e) is rotatably connected with a wiring bevel gear transmission bearing seat (9e), one side of the wiring bevel gear transmission bearing seat (9e) is provided with a wiring bevel gear installation fixing seat (10e), and the wiring bevel gear transmission bearing seat (9e) is the wiring bevel gear installation fixing seat.

7. A main winding movement mechanism according to claim 1, wherein: the divider transmission mechanism (106) comprises a shell (1f), a divider (2f) is arranged at the top of the shell (1f), a divider transmission synchronizing wheel (3f) is arranged on the front face of the shell (1f), a divider power output gear (4f) is arranged inside the shell (1f), the divider transmission synchronizing wheel (3f) is a power output gear, and the divider power output gear (4f) is a divider transmission synchronizing wheel.

8. A main winding movement mechanism according to claim 7, wherein: one side at casing (1f) back is provided with gear bearing seat (5f), gear bearing seat's front is provided with middle transition gear connecting axle (6f), the one end of middle transition gear connecting axle (6f) is provided with transition gear (7f) in the middle of the surface of middle transition gear connecting axle (6f), the other end of middle transition gear connecting axle (6f) is provided with swing sector gear (8 f).

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