CN105336448A - Transmission mechanism of wire-coiling machine - Google Patents

Abstract

The invention relates to a transmission mechanism of a wire-coiling machine. The transmission mechanism is characterized by comprising a frame (4), the frame (4) is provided with a vectran pay-off apparatus (1), an alloy heating wire pay-off apparatus (2) and a take-up apparatus (3). The vectran pay-off apparatus (1) comprises a vectran pay-off rotation frame, the vectran pay-off rotation frame is internally provided with a vectran pay-off sleeve seat (1.11), and the vectran pay-off sleeve seat (1.11) is externally provided with a vectran pay-off cylinder (1.12); and the take-up apparatus (3) comprises a take-up frame, and the take-up frame is internally provided with an I-shaped wheel (3.6). The transmission mechanism of the wire-coiling machine is applied to assembling a wire-coiling machine, and a die head is not extruded when an alloy heating wire is wound on the surface of vectran. Therefore, a finally wound product is good in extensibility, high in surface flatness and good in anti-folding performance.

Description

The transmission mechanism of spiral filament forming machine

Technical field

The present invention relates to a kind of transmission mechanism of spiral filament forming machine.

Background technology

The heating wire of heating cable adopts stranding machine to make in the method for the stranded alloy heater strip in anti-elater surface.Such method have passed through the extruding of die head due to alloy heater strip, the surface of alloy heater strip has damage, causes the heating wire surface smoothness that processes poor, heating wire poor ductility, there is surface stress in heating wire surface, therefore the warping resistance performance of its product also can decline thereupon.

Summary of the invention

The object of the invention is to overcome above-mentioned deficiency, provide a kind of for be assembled in anti-elater surface around the home after alloy heater strip product ductility good, surface smoothness is high, the transmission mechanism of the spiral filament forming machine of the spiral filament forming machine that warping resistance performance is good.

The object of the present invention is achieved like this:

A transmission mechanism for spiral filament forming machine, is characterized in that it comprises frame, described frame is provided with anti-elater actinobacillus device, alloy heater strip actinobacillus device and take-up;

Described anti-elater actinobacillus device is arranged at the upper strata of frame, described anti-elater actinobacillus device comprises anti-elater unwrapping wire rotating frame, be provided with anti-elater unwrapping wire receiver in described anti-elater unwrapping wire rotating frame, anti-elater unwrapping wire receiver is outside equipped with anti-elater ureeling barrel;

Described take-up is arranged at the lower floor of frame, described take-up comprises take-up framework, described take-up framework comprises base plate and top board, a lower rotation axis is had to stretch out through base plate downwards, lower rotation axis is hollow shaft, lower rotation axis is fixedly connected with base plate, a upper rotation axis is had to protrude upward through top board, upper rotation axis is hollow shaft, upper rotation axis is fixedly connected with top board, described take-up lower portion is provided with an I-beam wheel, the lower center of described I-beam wheel is fixedly connected with an I-beam wheel rotation axis downwards, I-beam wheel rotation axis passes outside lower rotation axis downwards, described upper rotation axis is disposed with take-up die head and supporting bracket from top to bottom, vertical top plate supporting axle is provided with between the two ends of described supporting bracket and top board, two top plate supporting axles are fixedly installed respectively a take-up pulley,

Take-up base is provided with below the base plate of described take-up, take-up base is provided with a motor arranged downwards, the output of motor is provided with the first drive, the second drive that first drive and the fixed cover of its side are loaded on lower rotation axis is connected by the first belt, take-up base is provided with take-up base back shaft upwards, take-up base back shaft is set with the 3rd drive and the 4th drive that are fixedly connected with up and down, the part that lower rotation axis is positioned at base plate and take-up base is set with the first gear outward from top to bottom successively, 5th drive and the 6th drive, wherein the first gear is fixedly connected with the 5th drive and is rotatably assorted with lower rotation axis, 6th drive is fixedly connected with lower rotation axis, described 4th drive is connected by the second belt with the 6th drive of its side, described 3rd drive is connected by the 3rd belt with the 5th drive of its side, right section of described base plate is provided with downward backplanes support axle, backplanes support axle is set with the second gear and the 3rd gear from top to bottom successively, described second gear and the 3rd gear are fixedly connected with and are rotatably assorted with backplanes support axle, wherein the first gears meshing of the second gear and its side, the right-hand member of take-up framework has first connecting axle from top to bottom successively through top board and base plate, first connecting axle and top board and base plate are rotatably assorted, the top of described first connecting axle and bottom are fixedly connected with the 7th drive and the 4th gear respectively, wherein the 3rd gears meshing of the 4th gear and its side, a top plate supporting axle sleeve of right is equipped with the 8th drive, 8th drive is fixedly connected with top plate supporting axle, 8th drive is connected by the 4th belt with the 7th drive of its side, two top plate supporting axles respectively fixed cover are equipped with the 9th drive and the tenth drive arranged left and right, 9th drive is connected by the 5th belt with the tenth drive, on upper rotation axis between take-up die head and supporting bracket, fixed cover is equipped with the 11 drive, the upper end of an anti-elater unwrapping wire rotating frame rotation axis is had to be fixedly connected with anti-elater unwrapping wire rotating frame, anti-elater unwrapping wire rotating frame rotation axis is hollow shaft, the lower end fixed cover of described anti-elater unwrapping wire rotating frame rotation axis is equipped with the 14 drive, described frame is also provided with vertical the second connecting axle arranged, second connecting axle is connected with gantry rotation, the top and bottom of the second connecting axle are fixedly connected with the 12 drive and the 13 drive respectively, wherein the 12 drive is connected by the 6th belt with the 14 drive of its side, 13 drive is connected by the 7th belt with the 11 drive of its side.

An anti-elater unwrapping wire receiver rotation axis is worn in anti-elater unwrapping wire rotating frame rotation axis, anti-elater unwrapping wire receiver rotation axis lower end is stretched out outside anti-elater unwrapping wire rotating frame rotation axis, the upper end of anti-elater unwrapping wire receiver rotation axis is fixedly connected with anti-elater unwrapping wire receiver, the lower end fixed cover of anti-elater unwrapping wire receiver rotation axis is equipped with the 16 drive, frame upper strata is also provided with the first magnetic tensioner, first magnetic tensioner is connected with the first commutator, first commutator output is provided with the 17 drive, 17 drive is connected by the 8th belt with the 16 drive of its side.

The lower end fixed cover of I-beam wheel rotation axis is equipped with the 15 drive, frame lower floor is also provided with the second magnetic tensioner, second magnetic tensioner is connected with the second commutator, second commutator output is provided with the 18 drive, and the 18 drive is connected by the 9th belt with the 15 drive of its side.

Compared with prior art, the invention has the beneficial effects as follows:

The transmission mechanism of spiral filament forming machine of the present invention for the spiral filament forming machine assembled on anti-elater surface around the home alloy heater strip time there is not the extruding of die head, therefore final product ductility is around the home good, and surface smoothness is high, and warping resistance performance is good.

Accompanying drawing explanation

Fig. 1 is the first viewing angle constructions schematic diagram of spiral filament forming machine of the present invention.

Fig. 2 is the internal structure schematic diagram at the first visual angle of spiral filament forming machine of the present invention.

Fig. 3 is the internal structure left view of spiral filament forming machine of the present invention.

Fig. 4 is the A-A cutaway view of Fig. 3.

Fig. 5 is the superstructure schematic diagram of Fig. 2.

Fig. 6 is the substructure schematic diagram of Fig. 2.

Fig. 7 is the superstructure schematic diagram of Fig. 3.

Fig. 8 is the substructure schematic diagram of Fig. 3.

Fig. 9 is the superstructure schematic diagram of Fig. 4.

Figure 10 is the substructure schematic diagram of Fig. 5.

Figure 11 is the second viewing angle constructions schematic diagram of spiral filament forming machine of the present invention.

Figure 12 is the third viewing angle constructions schematic diagram of spiral filament forming machine of the present invention.

Figure 13 is the 4th kind of viewing angle constructions schematic diagram of spiral filament forming machine of the present invention.

Figure 14 is the internal structure schematic diagram at the second visual angle of spiral filament forming machine of the present invention.

Figure 15 is the internal structure schematic diagram at the third visual angle of spiral filament forming machine of the present invention.

Figure 16 is the internal structure schematic diagram at the 4th kind of visual angle of spiral filament forming machine of the present invention.

Wherein:

Anti-elater actinobacillus device 1, supporting disk 1.1, support ring 1.2, anti-elater unwrapping wire rotating frame support bar 1.3, anti-elater unwrapping wire first guide wheel 1.4, anti-elater unwrapping wire deflector roll 1.5, anti-elater unwrapping wire second guide wheel supporting seat 1.6, anti-elater unwrapping wire second guide wheel 1.7, crossbeam 1.8, anti-elater unwrapping wire the 3rd guide wheel supporting seat 1.9, anti-elater unwrapping wire the 3rd guide wheel 1.10, anti-elater unwrapping wire receiver 1.11, anti-elater ureeling barrel 1.12, anti-elater unwrapping wire lead ring 1.13, anti-elater unwrapping wire rotating frame rotation axis 1.14, anti-elater unwrapping wire receiver rotation axis 1.15, 14 drive 1.16, 16 drive 1.17

Alloy heater strip actinobacillus device 2, brace table 2.1, montant 2.2, alloy heater strip ureeling barrel 2.3, lead ring spacing collar 2.4

Take-up 3, base plate 3.1, top board 3.2, take-up frame supported bar 3.3, lower rotation axis 3.4, upper rotation axis 3.5, I-beam wheel 3.6, I-beam wheel rotation axis 3.7, take-up die head 3.8, supporting bracket 3.9, top plate supporting axle 3.10, take-up pulley 3.11, fixing cord wheel 3.12, screw mandrel 3.13, winding displacement Mobile base 3.14, mobile idler pulley 3.15, movable conducting wire wheel 3.16, take-up base 3.17, motor 3.18, first drive 3.19, second drive 3.20, first belt 3.21, take-up base back shaft 3.22, 3rd drive 3.23, 4th drive 3.24, first gear 3.25, 5th drive 3.26, 6th drive 3.27, second belt 3.28, 3rd belt 3.29, second gear 3.30, 3rd gear 3.31, first connecting axle 3.32, 7th drive 3.33, 4th gear 3.34, 8th drive 3.35, 4th belt 3.36, 9th drive 3.37, tenth drive 3.38, 5th belt 3.39, 11 drive 3.40, 15 drive 3.41, backplanes support axle 3.42

Frame 4

Second connecting axle the 5, the 12 drive the 5.1, the 13 drive 5.2

6th belt 6

7th belt 7

First magnetic tensioner 8

First commutator 9

17 drive 10

8th belt 11

Second magnetic tensioner 12

Second commutator 13

18 drive 14

9th belt 15.

Embodiment

See Fig. 1 ~ Figure 16, a kind of spiral filament forming machine that the present invention relates to, it comprises frame 4, described frame 4 is provided with anti-elater actinobacillus device 1, alloy heater strip actinobacillus device 2 and take-up 3.

Described anti-elater actinobacillus device 1 is arranged at the upper strata of frame 4, described anti-elater actinobacillus device 1 comprises anti-elater unwrapping wire rotating frame, anti-elater unwrapping wire rotating frame comprises the supporting disk 1.1 of bottom and the support ring 1.2 at top, two anti-elater unwrapping wire rotating frame support bars 1.3 and two anti-elater unwrapping wire guide rolls support axles are evenly provided with between described supporting disk 1.1 and support ring 1.2, the arranged outside of described anti-elater unwrapping wire rotating frame support bar 1.3 has vertical anti-elater unwrapping wire first guide wheel 1.4 arranged, described anti-elater unwrapping wire guide rolls support axle is provided with anti-elater unwrapping wire deflector roll 1.5, the support ring 1.2 of described anti-elater unwrapping wire rotating frame support bar 1.3 corresponding position is upwards provided with anti-elater unwrapping wire second guide wheel supporting seat 1.6, described anti-elater unwrapping wire second guide wheel supporting seat 1.6 is provided with anti-elater unwrapping wire second guide wheel 1.7 of oblique layout, the middle part erection of described support ring 1.2 has crossbeam 1.8, crossbeam 1.8 can be dismantled on support ring 1.2, the middle part of described crossbeam 1.8 is upwards provided with anti-elater unwrapping wire the 3rd guide wheel supporting seat 1.9, anti-elater unwrapping wire the 3rd guide wheel supporting seat 1.9 is provided with vertical anti-elater unwrapping wire the 3rd guide wheel 1.10 arranged, the middle part of described crossbeam 1.8 is provided with the wire breach of upper and lower hollow out, anti-elater unwrapping wire receiver 1.11 is provided with in described anti-elater unwrapping wire rotating frame, anti-elater unwrapping wire receiver 1.11 is outside equipped with anti-elater ureeling barrel 1.12, inside, anti-elater unwrapping wire receiver 1.11 upper end is provided with anti-elater unwrapping wire lead ring supporting seat, anti-elater unwrapping wire lead ring supporting seat is provided with the anti-elater unwrapping wire lead ring 1.13 of transverse arrangement of turbo.An anti-elater unwrapping wire rotating frame rotation axis 1.14 is had to be passed down through supporting disk 1.1, anti-elater unwrapping wire rotating frame rotation axis 1.14 is fixedly connected with supporting disk 1.1, anti-elater unwrapping wire rotating frame rotation axis 1.14 is hollow shaft, an anti-elater unwrapping wire receiver rotation axis 1.15 is worn in anti-elater unwrapping wire rotating frame rotation axis 1.14, anti-elater unwrapping wire receiver rotation axis 1.15 lower end is stretched out outside anti-elater unwrapping wire rotating frame rotation axis 1.14, and the upper end of anti-elater unwrapping wire receiver rotation axis 1.15 is fixedly connected with anti-elater unwrapping wire receiver.

Described alloy heater strip actinobacillus device 2 is arranged at the middle level of frame 4, described alloy heater strip actinobacillus device 2 comprise be circular layout or semi-circular arrange brace table 2.1, described brace table 2.1 is provided with the vertical many montants 2.2 arranged, described montant 2.2 is arranged with as required alloy heater strip ureeling barrel 2.3, the center of described brace table 2.1 is provided with a lead ring spacing collar 2.4, lead ring spacing collar 2.4 is provided with multiple alloy heater strip lead ring, the unwrapping wire of alloy heater strip ureeling barrel 2.3 is passive unwrapping wire.

Described take-up 3 is arranged at the lower floor of frame 4, described take-up 3 comprises take-up framework, described take-up framework comprises base plate 3.1 and the top board 3.2 of rectangle, two vertical take-up frame supported bars 3.3 are respectively provided with between the two ends of described base plate 3.1 and top board 3.2 two ends, a lower rotation axis 3.4 is had to stretch out through base plate 3.1 downwards, lower rotation axis 3.4 is hollow shaft, lower rotation axis 3.4 is fixedly connected with base plate 3.1, a upper rotation axis 3.5 is had to protrude upward through top board 3.2, upper rotation axis 3.5 is hollow shaft, upper rotation axis 3.5 is fixedly connected with top board 3.2, described take-up lower portion is provided with an I-beam wheel 3.6, the lower center of described I-beam wheel 3.6 is fixedly connected with an I-beam wheel rotation axis 3.7 downwards, I-beam wheel rotation axis 3.7 passes outside lower rotation axis 3.4 downwards, I-beam wheel rotation axis 3.7 and lower rotation axis 3.4 top are rotatably assorted, the lower end of upper rotation axis 3.5 extends to the upper end center place of I-beam wheel 3.6.Described upper rotation axis 3.5 is disposed with from top to bottom take-up die head 3.8 and supporting bracket 3.9, the upper rotation axis 3.5 below supporting bracket 3.9 offers wire hole.Be provided with between the two ends of described supporting bracket 3.9 and top board 3.2 on vertical top plate supporting axle 3.10, two top plate supporting axles 3.10 and be fixedly installed a take-up pulley 3.11 respectively.Before and after a take-up pulley 3.11 of left both sides base plate 3.1 on be respectively arranged with fixing cord wheel 3.12, also bus cable device is provided with between base plate 3.1 and top board 3.2 left end, bus cable device comprises and is arranged at screw mandrel 3.13 vertical between base plate 3.1 and top board 3.2 left end and the winding displacement Mobile base 3.14 with screw mandrel 3.13 threaded engagement, the left side of described winding displacement Mobile base 3.14 is provided with two mobile idler pulleys 3.15, two mobile idler pulleys 3.15 coordinate with take-up frame supported bar 3.3, and the right side of described winding displacement Mobile base 3.14 is provided with two movable conducting wire wheels 3.16.

This spiral filament forming machine also comprises the transmission mechanism for driving anti-elater actinobacillus device 1 and take-up 3 to work.Take-up base 3.17 is provided with below the base plate 3.1 of described take-up 3, take-up base 3.17 is provided with a motor 3.18 arranged downwards, the output of motor 3.18 extends the below of take-up base 3.17, the output of motor 3.18 is provided with the first drive 3.19, the second drive 3.20 that first drive 3.19 and the fixed cover of its side are loaded on lower rotation axis 3.4 is connected by the first belt 3.21, take-up base 3.17 is provided with take-up base back shaft 3.22 upwards, take-up base back shaft 3.22 is set with the 3rd drive 3.23 and the 4th drive 3.24 that are fixedly connected with up and down, 3rd drive 3.23 and the 4th drive 3.24 are rotatably assorted with take-up base back shaft 3.22, lower rotation axis 3.4 is positioned at base plate 3.1 and is set with the first gear 3.25 from top to bottom successively outward with the part of take-up base 3.17,5th drive 3.26 and the 6th drive 3.27, wherein the first gear 3.25 is fixedly connected with the 5th drive 3.26 and is rotatably assorted with lower rotation axis 3.4,6th drive 3.27 is fixedly connected with lower rotation axis 3.4, described 4th drive 3.24 is connected by the second belt 3.28 with the 6th drive 3.27 of its side, described 3rd drive 3.23 is connected by the 3rd belt 3.29 with the 5th drive 3.26 of its side, right section of described base plate 3.1 is provided with downward backplanes support axle 3.42, backplanes support axle 3.42 is set with the second gear 3.30 and the 3rd gear 3.31 from top to bottom successively, described second gear 3.30 and the 3rd gear 3.31 are fixedly connected with and are rotatably assorted with backplanes support axle 3.42.Wherein the second gear 3.30 engages with the first gear 3.25 of its side.The right-hand member of take-up framework has first connecting axle 3.32 from top to bottom successively through top board 3.2 and base plate 3.1, first connecting axle 3.32 is rotatably assorted with top board 3.2 and base plate 3.1, the top of described first connecting axle 3.32 and bottom are fixedly connected with the 7th drive 3.33 and the 4th gear 3.34 respectively, and wherein the 4th gear 3.34 engages with the 3rd gear 3.31 of its side.The 8th drive 3.35 is set with below the take-up pulley 3.11 of a top plate supporting axle 3.10 of right, 8th drive 3.35 is fixedly connected with top plate supporting axle 3.10,8th drive 3.35 is connected by the 4th belt 3.36 with the 7th drive 3.33 of its side, the outer fixed cover respectively of part that two top plate supporting axles 3.10 are passed down through top board 3.2 is equipped with the 9th drive 3.37 arranged left and right and the tenth drive the 3.38, nine drive 3.37 is connected by the 5th belt 3.39 with the tenth drive 3.38.On upper rotation axis 3.5 between take-up die head 3.8 and supporting bracket 3.9, fixed cover is equipped with the 11 drive 3.40, and the lower end fixed cover of I-beam wheel rotation axis 3.7 is equipped with the 15 drive 3.41.The lower end fixed cover of described anti-elater unwrapping wire rotating frame rotation axis 1.14 is equipped with the 14 drive 1.16, and the lower end fixed cover of anti-elater unwrapping wire receiver rotation axis 1.15 is equipped with the 16 drive 1.17.Described frame 4 is also provided with vertical the second connecting axle 5 arranged, second connecting axle 5 is rotationally connected with frame 4, the top and bottom of the second connecting axle 5 are fixedly connected with the 12 drive the 5.1 and the 13 drive 5.2 respectively, wherein the 12 drive 5.1 is connected by the 6th belt 6 with the 14 drive 1.16 of its side, and the 13 drive 5.2 is connected by the 7th belt 7 with the 11 drive 3.40 of its side.Frame 4 upper strata is also provided with the first magnetic tensioner 8 in addition, first magnetic tensioner 8 is connected with the first commutator 9, first commutator 9 output is provided with the 17 drive 10, and the 17 drive 10 is connected by the 8th belt 11 with the 16 drive 1.17 of its side.Frame 4 lower floor is also provided with the second magnetic tensioner 12, second magnetic tensioner 12 is connected with the second commutator 13, second commutator 13 output is provided with the 18 drive 14, and the 18 drive 14 is connected by the 9th belt 15 with the 15 drive 3.41 of its side.

Operation principle:

Anti-elater ureeling barrel is loaded on anti-elater unwrapping wire receiver, and alloy heater strip ureeling barrel is loaded on montant, and I-beam wheel is loaded on I-beam wheel rotation axis, starter motor.Driven by motor first drive 3.19, first drive 3.19 drives the second drive 3.20 by the first belt 3.21, thus lower rotation axis 3.4 drives take-up frame member, the 11 drive 3.40 on upper rotation axis drives the 13 drive 5.2 by the 7th belt 7,12 drive 5.1 of the second connecting axle 5 drives the 14 drive 1.16 by the 6th belt 6, thus anti-elater unwrapping wire rotating frame also starts to rotate.The power that first magnetic tensioner 8 exports after the first commutator 9 commutates drives the 17 drive 10,17 drive 10 drives the 16 drive 1.17 by the 8th belt 11, thus the anti-elater ureeling barrel 1.12 on anti-elater unwrapping wire receiver 1.11 starts to rotate unwrapping wire.The 6th drive 3.27 on lower rotation axis 3.4 drives the 4th drive 3.24 by the second belt 3.28, 3rd drive 3.23 drives the 5th drive 3.26 by the 3rd belt 3.29, first gear 3.25 drives the second gear 3.30, 3rd gear 3.31 drives the 4th gear 3.34, 7th drive 3.33 drives the 8th drive 3.35 by the 4th belt 3.36, tenth drive 3.38 drives the 9th drive 3.37 by the 5th belt 3.39, thus two take-up pulleies 3.11 rotations provide take-up power, by regulating the gear ratio of the 3rd gear 3.31 and the 4th gear 3.34, the first speed of take-up pulley 3.11 can be regulated, the power that second magnetic tensioner 12 exports after the second commutator 13 hoop drives the 18 drive 14, 18 drive 14 drives the 15 drive by the 9th belt 15, thus I-beam wheel 3.6 starts to rotate take-up.

Anti-elater on anti-elater ureeling barrel 1.12 is successively through anti-elater unwrapping wire deflector roll 1.5, anti-elater unwrapping wire first guide wheel 1.4, anti-elater unwrapping wire second guide wheel 1.7, enter in vertical anti-elater unwrapping wire receiver rotation axis 1.15 after anti-elater unwrapping wire the 3rd guide wheel 1.10 and anti-elater unwrapping wire lead ring 1.13, then converge with the many alloy heater strips of releasing on alloy heater strip ureeling barrel 2.3, at take-up die head 3.8, place carries out stranded, heating wire after stranded starts to take turns 3.12 by fixing cord after take-up through take-up pulley 3.11 and enters bus cable device, finally be wound in I-beam wheel 3.6.

Claims (3)

1. a transmission mechanism for spiral filament forming machine, is characterized in that it comprises frame (4), described frame (4) is provided with anti-elater actinobacillus device (1), alloy heater strip actinobacillus device (2) and take-up (3);

Described anti-elater actinobacillus device (1) is arranged at the upper strata of frame (4), described anti-elater actinobacillus device (1) comprises anti-elater unwrapping wire rotating frame, be provided with anti-elater unwrapping wire receiver (1.11) in described anti-elater unwrapping wire rotating frame, anti-elater unwrapping wire receiver (1.11) is outside equipped with anti-elater ureeling barrel (1.12);

Described take-up (3) is arranged at the lower floor of frame (4), described take-up (3) comprises take-up framework, described take-up framework comprises base plate (3.1) and top board (3.2), a lower rotation axis (3.4) is had to stretch out through base plate (3.1) downwards, lower rotation axis (3.4) is hollow shaft, lower rotation axis (3.4) is fixedly connected with base plate (3.1), a upper rotation axis (3.5) is had to protrude upward through top board (3.2), upper rotation axis (3.5) is hollow shaft, upper rotation axis (3.5) is fixedly connected with top board (3.2), described take-up lower portion is provided with an I-beam wheel (3.6), the lower center of described I-beam wheel (3.6) is fixedly connected with an I-beam wheel rotation axis (3.7) downwards, I-beam wheel rotation axis (3.7) passes outside lower rotation axis (3.4) downwards, described upper rotation axis (3.5) is disposed with from top to bottom take-up die head (3.8) and supporting bracket (3.9), vertical top plate supporting axle (3.10) is provided with between the two ends of described supporting bracket (3.9) and top board (3.2), two top plate supporting axles (3.10) are fixedly installed respectively a take-up pulley (3.11),

Base plate (3.1) below of described take-up (3) is provided with take-up base (3.17), take-up base (3.17) is provided with a motor (3.18) arranged downwards, the output of motor (3.18) is provided with the first drive (3.19), the second drive (3.20) that first drive (3.19) and the fixed cover of its side are loaded on lower rotation axis (3.4) is connected by the first belt (3.21), take-up base (3.17) is provided with take-up base back shaft (3.22) upwards, take-up base back shaft (3.22) is set with the 3rd drive (3.23) and the 4th drive (3.24) that are fixedly connected with up and down, lower rotation axis (3.4) is positioned at base plate (3.1) and is set with the first gear (3.25) from top to bottom successively outward with the part of take-up base (3.17), 5th drive (3.26) and the 6th drive (3.27), wherein the first gear (3.25) is fixedly connected with the 5th drive (3.26) and is rotatably assorted with lower rotation axis (3.4), 6th drive (3.27) is fixedly connected with lower rotation axis (3.4), described 4th drive (3.24) is connected by the second belt (3.28) with the 6th drive (3.27) of its side, described 3rd drive (3.23) is connected by the 3rd belt (3.29) with the 5th drive (3.26) of its side, right section of described base plate (3.1) is provided with downward backplanes support axle (3.42), backplanes support axle (3.42) is set with the second gear (3.30) and the 3rd gear (3.31) from top to bottom successively, described second gear (3.30) and the 3rd gear (3.31) are fixedly connected with and are rotatably assorted with backplanes support axle (3.42), wherein the second gear (3.30) engages with first gear (3.25) of its side, the right-hand member of take-up framework has first connecting axle (3.32) from top to bottom successively through top board (3.2) and base plate (3.1), first connecting axle (3.32) is rotatably assorted with top board (3.2) and base plate (3.1), the top of described first connecting axle (3.32) and bottom are fixedly connected with the 7th drive (3.33) and the 4th gear (3.34) respectively, wherein the 4th gear (3.34) engages with the 3rd gear (3.31) of its side, a top plate supporting axle (3.10) of right is set with the 8th drive (3.35), 8th drive (3.35) is fixedly connected with top plate supporting axle (3.10), 8th drive (3.35) is connected by the 4th belt (3.36) with the 7th drive (3.33) of its side, two top plate supporting axles (3.10) respectively fixed cover are equipped with the 9th drive (3.37) and the tenth drive (3.38) arranged left and right, 9th drive (3.37) is connected by the 5th belt (3.39) with the tenth drive (3.38), the upper fixed cover of upper rotation axis (3.5) between take-up die head (3.8) and supporting bracket (3.9) is equipped with the 11 drive (3.40), the upper end of anti-elater unwrapping wire rotating frame rotation axis (1.14) is had to be fixedly connected with anti-elater unwrapping wire rotating frame, anti-elater unwrapping wire rotating frame rotation axis (1.14) is hollow shaft, the lower end fixed cover of described anti-elater unwrapping wire rotating frame rotation axis (1.14) is equipped with the 14 drive (1.16), described frame (4) is also provided with vertical the second connecting axle (5) arranged, second connecting axle (5) and frame (4) are rotationally connected, the top and bottom of the second connecting axle (5) are fixedly connected with the 12 drive (5.1) and the 13 drive (5.2) respectively, wherein the 12 drive (5.1) is connected by the 6th belt (6) with the 14 drive (1.16) of its side, 13 drive (5.2) is connected by the 7th belt (7) with the 11 drive (3.40) of its side.

2. the transmission mechanism of a kind of spiral filament forming machine according to claim 1, it is characterized in that in anti-elater unwrapping wire rotating frame rotation axis (1.14), wearing anti-elater unwrapping wire receiver rotation axis (1.15), anti-elater unwrapping wire rotating frame rotation axis (1.14) is stretched out outward in anti-elater unwrapping wire receiver rotation axis (1.15) lower end, the upper end of anti-elater unwrapping wire receiver rotation axis (1.15) is fixedly connected with anti-elater unwrapping wire receiver, the lower end fixed cover of anti-elater unwrapping wire receiver rotation axis (1.15) is equipped with the 16 drive (1.17), frame (4) upper strata is also provided with the first magnetic tensioner (8), first magnetic tensioner (8) is connected with the first commutator (9), first commutator (9) output is provided with the 17 drive (10), 17 drive (10) is connected by the 8th belt (11) with the 16 drive (1.17) of its side.

3. the transmission mechanism of a kind of spiral filament forming machine according to claim 1, it is characterized in that the lower end fixed cover of I-beam wheel rotation axis (3.7) is equipped with the 15 drive (3.41), frame (4) lower floor is also provided with the second magnetic tensioner (12), second magnetic tensioner (12) is connected with the second commutator (13), second commutator (13) output is provided with the 18 drive (14), and the 18 drive (14) is connected by the 9th belt (15) with the 15 drive (3.41) of its side.