CN107731513A - Winding mechanism and its method for winding - Google Patents

Abstract

The invention belongs to winding technique field, more particularly to a kind of winding mechanism and its method for winding.It solves the problems such as prior art design is unreasonable.This winding mechanism includes installing plate, the lifter plate being vertically arranged is provided with the outer surface of installing plate and described lifter plate is connected with lifting drive, at least one inlet wire mouth being vertically arranged is provided with lifter plate and described inlet wire mouth is connected with inlet wire lifting driving structure, it is provided with and the described one-to-one coiling wire-clamping device of inlet wire mouth on lifter plate, it is additionally provided with lifter plate and the buttock line after cutting is wrapped in second pin with the described one-to-one cutting facility of coiling wire-clamping device and cutting facility, described inlet wire mouth, coiling wire-clamping device and cutting facility are set gradually.The advantage of the invention is that：Production efficiency greatly improved and around line mass.

Description

Winding mechanism and its method for winding

Technical field

The invention belongs to winding technique field, more particularly to a kind of winding mechanism and its method for winding.

Background technology

Line is typically completed coiling by coil winding machine in coiling after being located on skeleton.

Needed the end of a thread and line tail in the winding process of air conditioning for automobiles resistance, after coiling rotating around being located at pin On, after coiling is cut, current coiling can not be wound on pin, it is necessary to carry out the cutting operation of buttock line again.

Above-mentioned mode, there is following technical problem in it：

1st, the cutting of buttock line, its can not only waste of materials, and also add production cost.

2nd, cutting again, which reduces production efficiency.

3rd, coiling is of poor quality.

For example, Chinese patent discloses a kind of tongs line apparatus of automatic coil winding machine, application number 201420241125.9, bag Cylinder is included, the cylinder is fixedly connected with take-up housing, and the inside of the take-up housing is provided with the inner chamber slid back and forth for sliding block, the cunning The rear end of block is connected with the piston rod of the cylinder, and the side wall of the sliding block is provided with cutter, the blade of the cutter towards with The direction of feed of the sliding block is identical, and the front end of the sliding block is fixedly connected with spring, and the clamp end of the spring is fixedly connected with folder Head, the front end of the take-up housing position corresponding with the chuck are provided with clamp.The program has the beneficial effect that：Whole dress Put it is compact-sized, simple, it is reasonable in design, using with it is easy to maintenance, save cost of manufacture, the integrated apparatus of clamp and trimming, Clamp and trimming are separated by spring, save the service cycle of coil winding machine, increases efficiency.

Although above-mentioned scheme its have many advantages, such as above, above-mentioned scheme does not solve thoroughly above-mentioned Technical problem.

The content of the invention

Regarding the issue above, the present invention provides one kind can improve production efficiency and can reduce cost, around The good winding mechanism of line mass.

Another object of the present invention be in view of the above-mentioned problems, provide it is a kind of raising winding efficiency and around line mass around Line method.

To reach above-mentioned purpose, present invention employs following technical proposal：This winding mechanism includes installing plate, in installing plate Outer surface be provided with the lifter plate that is vertically arranged and described lifter plate is connected with lifting drive, provided with extremely on lifter plate A few inlet wire mouth being vertically arranged and described inlet wire mouth is connected with inlet wire lifting driving structure, on lifter plate provided with and institute The one-to-one coiling wire-clamping device of inlet wire mouth stated, it is additionally provided with lifter plate and described coiling wire-clamping device one-to-one corresponding Cutting facility and cutting facility the buttock line after cutting is wrapped in second pin, described inlet wire mouth, coiling wire-clamping device Set gradually with cutting facility.

The synergy of the inlet wire mouth set gradually, coiling wire-clamping device and the cutting facility that set, it can be further Production efficiency is improved, design is more reasonable and meets the development trend of current enterprise.

It is provided between installing plate and lifter plate and is vertically directed guide rail.

In above-mentioned winding mechanism, described coiling wire-clamping device includes being rotatablely connected with lifter plate and is in be vertically arranged Rotating shaft, be connected with T-piece in the lower end of rotating shaft, in rotating shaft be provided with along the axially arranged pilot hole of rotating shaft, in pilot hole Inside it is equipped with plunger tip and described plunger tip is connected with lifting driving structure, lifting driving structure driving plunger tip is moved down so as to compel Make to form clamp space between the lower end of plunger tip and T-piece.

The structure of the T-piece combination plunger tip of setting, it can avoid the impaired of coiling, meanwhile, it can improve coiling Production efficiency, design more rationally and practicality it is stronger.

Secondly, the threading of coiling is more convenient and simple.

In above-mentioned winding mechanism, described T-piece is connected with rotating shaft bias and pilot hole is located in the axial direction of rotating shaft The heart；Connected between the vertical portion of T-piece and transverse part by arc-shaped concave.

Eccentric design, realizes resigning, is easy to the follow-up winding of coiling.

In above-mentioned winding mechanism, described rotating shaft lower end has upper plane and is connected to the convex of plane one end The portion of rising, described T-piece are connected in plane.

In above-mentioned winding mechanism, described lug boss lower end has the inclined plane being connected with upper plane, and inclined plane is inclined It is oblique outer down and to be connected with the lower plane with upper plane parallel in inclined plane lower end.

In above-mentioned winding mechanism, described rotating shaft lower end has two symmetrically arranged face of slope.

In above-mentioned winding mechanism, described rotating shaft and plunger tip rotation connection.

In above-mentioned winding mechanism, described rotating shaft is located on positioning seat and axle is provided between rotating shaft and positioning seat Hold.

In above-mentioned winding mechanism, described lifting driving structure includes any in linear electric motors, cylinder and oil cylinder It is a kind of.

In above-mentioned winding mechanism, described rotating shaft upper end is arranged with belt wheel, and belt wheel is connected with belt wheel driving structure.

In above-mentioned winding mechanism, described rotating shaft lower end is provided with the clamp cylinder being detachably connected with rotating shaft, described Upper plane and lug boss are separately positioned on clamp cylinder lower end.

In above-mentioned winding mechanism, described cutting facility includes tubular knife rest, and column is equipped with tubular knife rest Knife bar and described column knife bar is connected with rotating drive mechanism, has the first wire-shearing tool bit and first in the lower end of tubular knife rest The domed shape of lateral cross section of wire-shearing tool bit, there is the horizontal stroke of the second wire-shearing tool bit and the second wire-shearing tool bit in the lower end of column knife bar To the domed shape in section, by trimming between the first wire-shearing tool bit and the second wire-shearing tool bit through when cut and the second thread trimmer The arc concave surface of head inwall forces the line tail head cut to be wrapped in by pin.

The first wire-shearing tool bit and the second wire-shearing tool bit set, with reference to the structure of arc concave surface, it can force line tail Continue to be wrapped on pin, avoid the cutting of line tail and the waste of material, design is more reasonable.

In above-mentioned winding mechanism, the first described wire-shearing tool bit both sides have the first trimming blade respectively, two The angle less than 180 ° is formed between one trimming blade.

In above-mentioned winding mechanism, the second described wire-shearing tool bit both sides have the second trimming blade respectively, two The angle less than 180 ° is formed between two trimming blades.

In above-mentioned winding mechanism, the second described wire-shearing tool bit outer wall has corresponding with described arc concave surface Outer arcuate concave surface.

In above-mentioned winding mechanism, the first described wire-shearing tool bit inwall has to match with described outer arcuate concave surface Cooperation arc-shaped concave.

In above-mentioned winding mechanism, described tubular knife rest is positioned by fixed structure.

In above-mentioned winding mechanism, described fixed structure includes installation fixed block, in one end tool of installation fixed block There is opening to be inserted in the first open neck and described tubular knife rest in the first described neck.

In above-mentioned winding mechanism, the described installation fixed block other end is in the second open neck provided with opening.

In above-mentioned winding mechanism, described rotating drive mechanism includes in tubular knife rest and is connected to column knife The drive link of bar upper end, the rotary driver being connected with drive link upper end is provided with the top of tubular knife rest.

In above-mentioned winding mechanism, rolling structure is provided between described tubular knife rest upper end and drive link.

In above-mentioned winding mechanism, described lifting drive includes the sliding seat for being arranged on installing plate both ends, Sliding block is slidably connected respectively on each sliding seat, and a horizontally disposed elevating lever is provided between two sliding blocks, it is described It is arranged with least one installation fixed block being connected with described tubular knife rest on elevating lever to be connected on lifter plate, in installing plate Both ends be respectively equipped with the lift actuator being connected one by one with described sliding block.

Installing plate is connected with the drive mechanism that it can be driven to revolve round the sun.The structure of drive mechanism is prior art.

This method for winding comprises the following steps：

A, thread, coiling is penetrated from top to bottom to inlet wire mouth, the end of a thread of coiling shape through plunger tip lower end and T-piece Extended into clamp space and coiling the end of a thread end outside clamp space, described T-piece is arranged on rotating shaft lower end and plunger tip is worn In pilot hole in rotating shaft；

B, coiling, forced by moving the circumferential position of installing plate by the first pin alignment guide hole on skeleton Lower end, lifter plate now declines and plunger tip is risen by driving, and the first pin of alignment guide hole lower end is then inserted in into pilot hole Lower end and coiling is between T-piece and the first pin, the rotating shaft motor being connected with rotating shaft then drives described wire winding ring It is wound on the first pin, i.e. the end of a thread is looped around on the first pin；

Lifter plate move up so as to force coiling depart from T-piece, by rotated around skeleton so as to force wire winding ring around By circumferential around skeleton, circumferentially around after finishing then by installing plate in its circumferential movement so as to forcing coiling to be looped around the On two pins, in second pin around finish when lifter plate now move down so as to force plunger tip and T-piece by coiling Clamping, being passed through by coiling between the first wire-shearing tool bit and the second wire-shearing tool bit now after coiling is clamped, the second thread trimmer Head is rotated relative to the first wire-shearing tool bit so as to be cut by coiling, by the line tail of coiling then by the second wire-shearing tool bit inwall Arc-shaped concave is wrapped in second pin, i.e. completes coiling.

In above-mentioned method for winding, in above-mentioned step B, when carrying out trimming, described inlet wire mouth moves down So as to force coiling to tense.

Compared with prior art, this winding mechanism and its it is the advantages of method：

1st, the synergy of the inlet wire mouth set gradually, coiling wire-clamping device and the cutting facility that set, it can enter one Step improves production efficiency, and design is more reasonable and meets the development trend of current enterprise.

2nd, set T-piece combination plunger tip structure, its can avoid coiling be damaged, meanwhile, be able to can improve around The production efficiency of line, design is more reasonable and practicality is stronger.

3rd, the first wire-shearing tool bit and the second wire-shearing tool bit set, with reference to the structure of arc concave surface, it can force line Tail continues to be wrapped on pin, avoids the cutting of line tail and the waste of material.

4th, structure is simpler.

Brief description of the drawings

Fig. 1 is winding mechanism structural representation provided by the invention.

Fig. 2 is mplifying structure schematic diagram at A in Fig. 1.

Fig. 3 is clamp barrel structure schematic diagram provided by the invention.

Fig. 4 is coiling clamping view provided by the invention.

Fig. 5 is cutting facility dimensional structure diagram provided by the invention.

Fig. 6 is cutting facility cross section structure diagram provided by the invention.

Fig. 7 is cutting facility partial structural diagram provided by the invention.

Fig. 8 is winding state structural representation provided by the invention.

Fig. 9 is the skeleton structure schematic diagram of non-coiling provided by the invention.

Figure 10 is the structural representation after skeleton coiling provided by the invention.

In figure, rotating shaft 1, pilot hole 11, upper plane 12, lug boss 13, inclined plane 131, lower plane 132, face of slope 14th, rotating shaft motor 15, T-piece 2, plunger tip 3, positioning seat 4, belt wheel 5, clamp cylinder 6, clamp space a, tubular knife rest A1, post Shape knife bar A2, the first wire-shearing tool bit A3, the first trimming blade A31, the second wire-shearing tool bit A4, the second trimming blade A41, arc Concave surface A42, outer arcuate concave surface A43, installation fixed block A5, the first neck A51, the second neck A52, drive link A6, rotation driving Device A61, rolling structure A7, installing plate 7, lifter plate 71, sliding seat 711, sliding block 712, elevating lever 713, inlet wire mouth 8, inlet wire liter Driving structure 81, coiling wire-clamping device 10, cutting facility 20 drop.

Embodiment

The present invention will be further described in detail with reference to the accompanying drawings and detailed description.

As shown in figure 1, this winding mechanism includes installing plate 7, the lifter plate being vertically arranged is provided with the outer surface of installing plate 7 71 and described lifter plate 71 be connected with lifting drive, at least one inlet wire mouth being vertically arranged is provided with lifter plate 71 8 and described inlet wire mouth 8 and inlet wire lifting driving structure 81 be connected, lifting drive includes being arranged on the both ends of installing plate 7 Sliding seat 711, sliding block 712 is slidably connected respectively on each sliding seat 711, a water is provided between two sliding blocks 712 The elevating lever 713 set is put down, at least one installation being connected with described tubular knife rest A1 is arranged with described elevating lever 713 Fixed block A5 is connected on lifter plate 71.

The lift actuator 714 being connected one by one with described sliding block 712 is respectively equipped with the both ends of installing plate 7.Lifting is driven Dynamic device 714 is cylinder or oil cylinder.

Inlet wire lifting driving structure 81 includes lift cylinder or oil cylinder.

On lifter plate 71 be provided with the described one-to-one coiling wire-clamping device 10 of inlet wire mouth 8, on lifter plate 71 It is additionally provided with cutting facility 20 one-to-one with described coiling wire-clamping device 10 and cutting facility 20 twines the buttock line after cutting It is wound in second pin, described inlet wire mouth 8, coiling wire-clamping device 10 and cutting facility 20 set gradually and described in when trimmings Inlet wire mouth 8 is moved down so as to force coiling to tense.

Specifically, as in Figure 2-4, coiling wire-clamping device 10 includes being rotatablely connected with lifter plate 71 and is in be vertically arranged Rotating shaft 1, rotating shaft 1 is located on positioning seat 4 and bearing is provided between rotating shaft 1 and positioning seat 4.

Belt wheel 5 is arranged with the upper end of rotating shaft 1, belt wheel 5 is connected with belt wheel driving structure.Belt wheel driving structure includes band wheel belt And motor.

T-piece 2 is connected with the lower end of rotating shaft 1, is connected between the vertical portion of T-piece 2 and transverse part by arc-shaped concave, It is provided with rotating shaft 1 along the axially arranged pilot hole 11 of rotating shaft 1, plunger tip 3 and described plunger tip 3 is equipped with pilot hole 11 It is connected with lifting driving structure, lifting driving structure driving plunger tip 3 is moved down so as to force the lower end of plunger tip 3 and T-piece 2 Between form clamp space a.

Big-and-middle in the present embodiment, line card enters to T-piece 2, and plunger tip 3 now is moved down so as to be blocked in outside T-piece 2 Side, and when winding operation, by the rotation of rotating shaft so as to tensing coiling, i.e. realize the clamp of coiling, pass through above-mentioned knot Structure, then winding operation is carried out, the impaired of wire rod can be avoided, design is more reasonable and virtually improves coiling quality.

T-piece 2 and rotating shaft 1 be eccentric to be connected and pilot hole 11 is located at the axial centre of rotating shaft 1.By the design of the structure, It, which can be improved, wears efficiency and around line mass.

Further, there is upper plane 12 in the lower end of rotating shaft 1 and be connected to the lug boss 13 of the one end of plane 12, Described T-piece 2 is connected in plane 12.

The design of lug boss 13, it can avoid coiling from resting on a position coiling during coiling is lifted.

Secondly, there is the inclined plane 131 that is connected with upper plane 12 in the lower end of lug boss 13, inclined plane 131 tilt outward towards It is connected with down and in the lower end of inclined plane 131 lower plane 132 parallel with upper plane 12.

The inclined plane 131 of setting, it can further improve threading efficiency.

There are two symmetrically arranged face of slope 14 in the lower end of rotating shaft 1.

Rotating shaft 1 and plunger tip 3 are rotatablely connected.Step and the bearing being arranged on step are provided with the middle part of the pilot hole of rotating shaft 1 Part, bearing part is between rotating shaft 1 and plunger tip 3.

Lifting driving structure includes any one in linear electric motors, cylinder and oil cylinder.

The lower end of rotating shaft 1 is provided with the clamp cylinder 6 being detachably connected with rotating shaft 1, and described upper plane 12 and lug boss 13 are distinguished It is arranged on the lower end of clamp cylinder 6.

The design of clamp cylinder 6, it can be changed in order to repair.

Bearing pin is provided with the upper end of clamp cylinder 6, the pin shaft hole for supplying described bearing pin insertion is provided with the lower end of rotating shaft 1, i.e. on The structure stated realizes being detachably connected for clamp cylinder 6, it is, of course, also possible to be the connected mode by screw thread.

As viewed in figures 5-8, cutting facility 20 includes tubular knife rest A1, and tubular knife rest A1 upper-end inner diameter is more than its lower end Internal diameter and tubular knife rest A1 middle part formed positioning table terrace.

Column knife bar A2 is equipped with tubular knife rest A1 and described column knife bar A2 is connected with rotating drive mechanism, Specifically, the rotating drive mechanism includes in tubular knife rest A1 and is connected to the drive link A6 of column knife bar A2 upper ends, Tubular knife rest A1 top is provided with the rotary driver A61 being connected with drive link A6 upper ends.Rotary driver A61 is motor.

Rolling structure A7 is provided between tubular knife rest A1 upper ends and drive link A6.Rolling structure A7 is at least one axis of rolling Hold.

Secondly, rolling bearing is arranged on the positioning table terrace in the middle part of tubular knife rest A1.

Have the first wire-shearing tool bit A3 and the first wire-shearing tool bit A3 lateral cross section domed in tubular knife rest A1 lower end Shape, the first wire-shearing tool bit A3 both sides form and are less than between having the first trimming blade A31, two the first trimming blade A31 respectively 180 ° of angle.

Prioritization scheme, 90-120 ° of angle is formed between two first trimming blade A31 of the present embodiment.

Have the second wire-shearing tool bit A4 and the second wire-shearing tool bit A4 lateral cross section domed in column knife bar A2 lower end Shape, the second wire-shearing tool bit A4 both sides form and are less than between having the second trimming blade A41, two the second trimming blade A41 respectively 180 ° of angle.

Prioritization scheme, 90-120 ° of angle is formed between two second trimming blade A41 of the present embodiment.

By trimming between the first wire-shearing tool bit A3 and the second wire-shearing tool bit A4 through when cut and the second wire-shearing tool bit The arc concave surface A42 of A4 inwalls forces the line tail head cut to be wrapped in by pin.

By setting arc concave surface A42, line tail can be wrapped on pin by it, avoid the wave cut with wire rod Take, virtually improve production efficiency.

Secondly, there is the outer arcuate concave surface corresponding with described arc concave surface A42 in the second wire-shearing tool bit A4 outer walls A43。

There is the cooperation arc-shaped concave 32 to be matched with described outer arcuate concave surface A43 in the first wire-shearing tool bit A3 inwalls.

Specifically, it is in the first open neck A51 and described tubular to have opening in installation fixed block A5 one end Knife rest A1 is inserted in the first described neck A51.The one end of installation fixed block A5 provided with the first neck A51 have it is some can will First neck A51 opening is reduced from the first fastener for locking tubular knife rest A1.

It is in the second open neck A52 that the fixed block A5 other ends, which are installed, provided with opening.Fixed block A5 is installed and is provided with second Neck A52 one end has some the second fasteners that can reduce the second neck A52 opening.

As Figure 1-10 shows

This method for winding comprises the following steps：

A, thread, coiling penetrated from top to bottom to inlet wire mouth 8, the end of a thread of coiling through the lower end of plunger tip 3 and T-piece 2 it Between form clamp space a and coiling the end of a thread end and extend to outside a of clamp space, described T-piece 2 be arranged on the lower end of rotating shaft 1 and Plunger tip 3 is located in the pilot hole 11 in rotating shaft 1；

B, coiling, forced by moving the circumferential position of installing plate 7 by the first pin alignment guide on skeleton The lower end of hole 11, lifter plate 71 now declines and plunger tip 3 is risen by driving, and the first pin of the lower end of alignment guide hole 11 is then inserted In entering the lower end of pilot hole 11 and between coiling is located at the pin of T-piece 2 and first, the rotating shaft motor 15 being connected with rotating shaft 1 is then Described coiling is driven to be looped around on the first pin, i.e. the end of a thread is looped around on the first pin；

Lifter plate 71 is moved up so as to force coiling to depart from T-piece 2, by being rotated around skeleton so as to force wire winding ring Be wound on by circumferential around skeleton, circumferentially around after finishing then by installing plate 7 its circumferential movement so as to force wire winding ring around In second pin, in second pin around finish when lifter plate 71 now move down so as to force plunger tip 3 and T-piece 2 clamp coiling, being passed through by coiling between the first wire-shearing tool bit A3 and the second wire-shearing tool bit A4 now after coiling is clamped, Second wire-shearing tool bit A4 is rotated relative to the first wire-shearing tool bit A3 so as to be cut by coiling, is then cut by the line tail of coiling by second The arc concave surface A42 of line cutter head A4 inwalls is wrapped in second pin, i.e. completes coiling.

When carrying out trimming, described inlet wire mouth 8 is moved down so as to force coiling to tense.That is, the first wire-shearing tool bit A3 When being cut with the second wire-shearing tool bit A4,

Secondly, after above-mentioned lifter plate 71 is moved up so as to force coiling to depart from T-piece 2, the described ring of inlet wire mouth 8 The coiling that circumferential winding at least one around the first pin is enclosed.

Specific embodiment described herein is only to spirit explanation for example of the invention.Technology belonging to the present invention is led The technical staff in domain can be made various modifications or supplement to described specific embodiment or be replaced using similar mode Generation, but without departing from the spiritual of the present invention or surmount scope defined in appended claims.

Claims (10)

1. a kind of winding mechanism, including installing plate (7), it is characterised in that be provided with what is be vertically arranged in the outer surface of installing plate (7) Lifter plate (71) and described lifter plate (71) is connected with lifting drive, it is at least one vertical to be provided with lifter plate (71) The inlet wire mouth (8) of setting and described inlet wire mouth (8) lift driving structure (81) with inlet wire and are connected, and are provided with lifter plate (71) With the one-to-one coiling wire-clamping device (10) of described inlet wire mouth (8), it is additionally provided with lifter plate (71) and described coiling The one-to-one cutting facility (20) of wire-clamping device (10) and the buttock line after cutting is wrapped in second pin by cutting facility (20) On, described inlet wire mouth (8), coiling wire-clamping device (10) and cutting facility (20) are set gradually and the inlet wire mouth when trimming (8) move down so as to force coiling to tense.

2. winding mechanism according to claim 1, it is characterised in that described coiling wire-clamping device (10) includes and lifting Plate (71) is rotatablely connected and in the rotating shaft (1) being vertically arranged, T-piece (2) is connected with the lower end of rotating shaft (1), in rotating shaft (1) Provided with along the axially arranged pilot hole (11) of rotating shaft (1), plunger tip (3) and described plunger tip are equipped with pilot hole (11) (3) it is connected with plunger tip lifting driving structure, plunger tip lifting driving structure driving plunger tip (3) is moved down so as to force plunger tip (3) Lower end and T-piece (2) between formed clamp space (a).

3. winding mechanism according to claim 2, it is characterised in that described T-piece (2) is connected with rotating shaft (1) bias And pilot hole (11) is located at the axial centre of rotating shaft (1).

4. winding mechanism according to claim 3, it is characterised in that described rotating shaft (1) lower end has upper plane (12) and the lug boss (13) of plane (12) one end is connected to, described T-piece (2) is connected in plane (12).

5. winding mechanism according to claim 4, it is characterised in that described rotating shaft (1) lower end is provided with can with rotating shaft (1) The clamp cylinder (6) of dismantling connection, described upper plane (12) and lug boss (13) are separately positioned on clamp cylinder (6) lower end.

6. winding mechanism according to claim 1, it is characterised in that described cutting facility (20) includes tubular knife rest (A1) column knife bar (A2), is equipped with tubular knife rest (A1) and described column knife bar (A2) connects with rotating drive mechanism Connect, have the lateral cross section of the first wire-shearing tool bit (A3) and the first wire-shearing tool bit (A3) domed in the lower end of tubular knife rest (A1) Shape, have the lateral cross section of the second wire-shearing tool bit (A4) and the second wire-shearing tool bit (A4) domed in the lower end of column knife bar (A2) Shape, by coiling between the first wire-shearing tool bit (A3) and the second wire-shearing tool bit (A4) through when cut and the second wire-shearing tool bit (A4) the arc concave surface (A42) of inwall forces the line tail head cut to be wrapped in second pin.

7. winding mechanism according to claim 6, it is characterised in that described the first wire-shearing tool bit (A3) both sides have respectively There is the first trimming blade (A31), the angle less than 180 ° is formed between two the first trimming blades (A31)；Described second is cut Line cutter head (A4) both sides have the second trimming blade (A41) respectively, are formed between two the second trimming blades (A41) and are less than 180 ° Angle.

8. winding mechanism according to claim 2, it is characterised in that described lifting drive includes being arranged on installation The sliding seat (711) at plate (7) both ends, slidably connects sliding block (712) respectively on each sliding seat (711), in two sliding blocks (712) a horizontally disposed elevating lever (713) is provided between, at least one and institute is arranged with described elevating lever (713) The installation fixed block (A5) for tubular knife rest (A1) connection stated is connected on lifter plate (71), is distinguished at the both ends of installing plate (7) Provided with the lift actuator (713) being connected one by one with described sliding block (712).

9. the method for winding of the winding mechanism according to claim 1-8 any one, it is characterised in that this method is included such as Lower step：

A, thread, coiling is penetrated from top to bottom to inlet wire mouth (8), the end of a thread of coiling and pass through plunger tip (3) lower end and T-piece (2) Between form clamp space (a) and coiling the end of a thread end and extend to clamp space (a) outside, described T-piece (2) is arranged on rotating shaft (1) lower end and plunger tip (3) are located in the pilot hole (11) in rotating shaft (1)；

B, coiling, forced by moving the circumferential position of installing plate (7) by the first pin alignment guide hole on skeleton (11) lower end, lifter plate (71) now declines and plunger tip (3) is risen by driving, first pin of alignment guide hole (11) lower end Then insert in pilot hole (11) lower end and coiling is located between T-piece (2) and the first pin, the rotating shaft being connected with rotating shaft (1) is driven Dynamic motor (15) then drives described coiling to be looped around on the first pin, i.e. the end of a thread is looped around on the first pin；

Lifter plate (71) is moved up so as to force coiling to depart from T-piece (2), by being rotated around skeleton so as to force wire winding ring Be wound on by circumferential around skeleton, circumferentially around after finishing then by installing plate (7) in its circumferential movement so as to forcing wire winding ring Be wound in second pin, in second pin around finish when lifter plate (71) now move down so as to force plunger tip (3) Coiling is clamped with T-piece (2), after coiling is clamped now by coiling from the first wire-shearing tool bit (A3) and the second wire-shearing tool bit (A4) passed through between, the second wire-shearing tool bit (A4) is rotated relative to the first wire-shearing tool bit (A3) so as to be cut by coiling, by coiling Line tail be then wrapped in by the arc concave surface (A42) of the second wire-shearing tool bit (A4) inwall in second pin, i.e. complete around Line.

10. method for winding according to claim 9, it is characterised in that in above-mentioned step B, when carrying out trimming, institute The inlet wire mouth (8) stated is moved down so as to force coiling to tense.