CN103628158B - Spinning technology of spinning machine - Google Patents

Abstract

The invention relates to a spinning process of a novel spinning machine. The spinning device comprises glue supply, strand silk forming, spinning and winding, wherein independent drying drafting rollers are arranged between spinning rollers in the spinning, a forming part of the winding device is positioned on the outer side of an area between wall plates on two sides of a rack and on the other side opposite to a spinning surface, and the strand silk obtained after the steps of glue supply, strand silk forming and spinning passes through the drying drafting rollers and is wound by the winding device to obtain the wound and formed strand silk. The winding device is externally arranged, so that the corrosion to the silk strips, the winding equipment and a control system thereof is low in an acid environment, the maintenance and the operation of workers are convenient, the independent drying and drafting rollers are arranged between the spinning rollers, so that the silk strips can pass through the drying and drafting rollers when the silk strips travel at the rear section of the spinning rollers, and the drying and drafting rollers are independent of the spinning rollers, so that the drying temperature and the drying time can be effectively controlled when the silk strips are dried.

Description

A kind of spinning technique of spinning-drawing machine

Technical field

The present invention relates to a kind of novel spinning technique, it is more particularly related to the spinning technique of a kind of novel spinning machine, belong to spining technology field.

Background technology

Pure methylcellulose, referred to as pulp is extracted by cellulosic material.Process with Caustic soda, Carbon bisulfide, obtain orange-yellow sodium cellulose xanthate, be re-dissolved in diluted sodium hydroxide solution, become the spinning solution of thickness, referred to as viscose glue.Viscose glue, after filtration, maturation, deaeration, carries out wet spinning, and coagulating bath is made up of sulphuric acid, sodium sulfate and zinc sulfate.Sodium cellulose xanthate in viscose glue decomposes with the effect of sulfuric acid in coagulating bath, cellulose regenerated and separate out, and gained cellulose fibre is through washing, desulfurization, bleaching, become viscose rayon after drying.The viscose filament yarn i.e. one of viscose rayon, is also to be prepared by above-mentioned technique.

In spinning and spinning last handling process, the selection of spinning-drawing machine has semicontinuous weaving loom and continuous weaving loom, in terms of technique and equipment two for, there is following difference in both spinning-drawing machines:

1, for the angle of production technology, semi-continuous spinning machine is spinning and post processing (post processing includes washing, dries, becomes the steps such as cylinder) separately, individually to be completed, and semi-continuous spinning machine is mainly responsible for spinning portion；And continuous spinning machine is that spinning and post processing (post processing includes washing, dries, becomes the steps such as cylinder) operation is concentrated in together and is continuously finished, continuous spinning is responsible for the institute from spinning to post processing in steps.

2, for the angle of device structure, semi-continuous spinning machine includes glue feed mechanism, thread spraying structure, strand shaping mechanism, spinning roller mechanism, wiper mechanism and winding mechanism, and the product obtained is to fall into the spinning cake in centrifugal cylinder；And continuous spinning machine has glue feed mechanism, thread spraying structure, strand shaping mechanism, spinning roller mechanism, wiper mechanism, do not have winding mechanism, strand to be directly entered the mechanism such as drip washing, drying, finally obtain the silk cylinder of coiling and molding.

Difference based on both the above spinning-drawing machine, its respective pluses and minuses are as follows:

1, semi-continuous spinning machine (as shown in Figure 1-Figure 3):

Advantage: owing to there being the post-processing step individually carried out, and post-processing step also has low-temp desulfurization, the process of low temperature long time drying, product has intensity height, whiteness height, the soft beautiful feature of strand；

Shortcoming: spin speed low, post processing costly, increases production cost.

2, continuous spinning machine:

Advantage: spin speed high, output increased；Spinning and post processing concentrate in together and carry out, and production cost reduces；

Shortcoming: owing to strand is i.e. to wash i.e. to dry, strand intensity is low, and whiteness is low, and strand is coarse, quality is not as the product of semi-continuous spinning machine；For increasing strand obvolvent starching, during floss silk dyeing, slurry needs to remove, and increases downstream product production cost；High to raw material (viscose glue) prescription.

In prior art modal semi-continuous spinning machine be R535 semi-continuous spinning machine (as shown in Figure 1-Figure 3, including frame 1, glue feeder 2, strand shaped device 3, device for spinning 4 and coiler device 5, in device for spinning 4, spinning roller is longitudinally disposed relative to the operating surface spinning face 101), the main flow of its spinning is:

Viscose glue is shaped to strand through reaction in spraying into acid bath groove with spinning head after being filtered by filter, strand passes through drawing-off dish drawing-off to solidifying roller, strand winds the distance of a fixing turn on solidification roller and carries out after the reaction of a period of time lifting head to the face of sth. made by twisting acid removing roller again, use the mode of drip washing of dripping that strand is gone acid elution above acid removing roller, strand winds the distance of a fixing turn on acid removing roller and imports centrifugal cylinder again, finally obtains spinning cake.

Wherein, spinning roll body is broadly divided into acid removing roller and solidification roller, each ingot position of spinning-drawing machine uses a pair solidification roller and a pair acid removing roller respectively, solidification roller is arranged on the face of spinning, acid removing roller is arranged on sth. made by twisting face, mutually deviating from, the fixed form of roll body is one end and fixes, and the operating surface position that installation direction spins face relative to spinning-drawing machine becomes longitudinally mounted.Three cylinder air drafts of another now R535 triplex yarn spinning machine use triplex with duct exhaust air mode.

Its strand moulding section of existing R535A semi-continuous spinning machine and spinning roll structure and mounting means cannot be carried out high speed spinning, and its spinning spins speed at about 70-90m/min.Its device structure and mounting means etc. cause the shortcomings such as spinning machine equipment floor space is big, energy consumption is high, technological process is complicated, maintenance point is many, and accessory consumes greatly, product cost is high simultaneously.Three cylinder triplex of another R535 triplex silk mutually form interference with duct exhaust air mode during air draft, cause exhaust effect poor.

The continuous spinning machine of the Soviet Union is improved for spinning roller segment, but obtain is tow owing to it produces, it is impossible to obtain spinning cake, so can not be directly applied in semi-continuous spinning machine.

In prior art, modal continuous spinning machine structure is as Figure 4-Figure 6, and its first half includes frame 1, glue feeder 2, strand shaped device 3 and device for spinning 4, and in device for spinning 4, spinning roller is relative to spinning the operating surface in face 101 also for longitudinally disposed.

State Intellectual Property Office discloses Publication No. CN1356409 in 2000.12.6, the patent of invention of entitled " single channel multifibres is centrifugal to be spun and semi-continuous spinning machine and rayon spinning technique thereof ", a kind of centrifugal semi-continuous spinning machine of this disclosure of the invention, it includes viscose glue induction system, swing tube assembly, scrapes acid, drawing-off dish, solidification roller, acid removing roller, crane and funnel, centrifugal cylinder and electricity ingot system, and viscose glue induction system is entered the multichannel viscose glue pipe of glue by head and tail two ends simultaneously and supporting mechanism forms；Swing tube assembly is made up of the dosing pump of the multi-channel parallel concatenated with multichannel sebific duct, worry set, curved tube and shower nozzle；The acid removing roller assembly being made up of two acid removing rollers installed up and down it is provided with on strand walking path above double solidification rollers；On machine crane, device and the funnel of the same number of synchronization action of strand；Its centrifugal cylinder, electricity ingot system are set to the many centrifugal cylinders of every ingot and the electric ingot supporting with it and controlling organization.

Foregoing invention can produce multi-filament simultaneously, the yield of viscose filament yarn is greatly improved, but this invention uses a pair solidification roller and a pair acid removing roller respectively due to each ingot position of its spinning-drawing machine, solidification roller is arranged on the face of spinning, acid removing roller is arranged on sth. made by twisting face, mutually deviating from, the fixed form of roll body is one end and fixes, and installation direction becomes longitudinally mounted relative to spinning-drawing machine operating surface position.The problem that said structure brings is as follows:

1, said structure limits the length of roller, the time that viscose filament yarn is walked on roller is short, and viscose filament yarn curring time is short, if high-speed spinning to be carried, inevitably resulting in the viscose filament yarn response time not reduces product quality, so using traditional semi-continuous spinning machine efficiency to reduce；

2, in order to improve efficiency, it will usually processing multi-filament bar simultaneously, but easy hank knotting again when many viscose filament yarns are wrapped on existing spinning roller, cause viscose filament yarn to rupture, affect the product quality of viscose filament yarn；

3 it addition, the fixed form of described spinning roller is one end fixes, and such fixed form is cantilevered, when spinning roller rotates, is in a kind of unsure state, is susceptible to fault；

4, all spinning rollers are all that one end is fixed, the rotation of spinning roller certainly will be driven by the extremely complex drive mechanism of Structure of need, so also result in the rising of fault rate, and changing silk thread kind, when changing velocity of rotation, need to stop, then carry out the replacing of drive system middle gear, so making production efficiency reduce, production cost increases.

State Intellectual Property Office discloses Publication No. CN2292097 in 1998.9.23, the utility model patent of entitled " viscose filament continuous spinning machine ", this patent relates to a kind of viscose filament continuous spinning machine, can be continuously finished spinning, wash, dry, oil, winding etc., it spins scooter 120m/min, this utility model arranges viscose filtration device before spinning-drawing machine board, spinning-drawing machine pump shaft is utilized to drive dosing pump operating, its simple in construction, clean easy to maintenance, effectively filtered the impurity in viscose glue；Spinning head is placed in by spinning bath box swing pipe end, it is ensured that spinning head and the concentricity of glass tubing, it is possible to avoiding producing lousiness, flexible operation, work efficiency is high；Glass tubing exit uses strand twin-steer, reduces the frictional force between strand and godet roller, and draw ratio distribution rationally, becomes yarn quality high.

Above-mentioned due to strand be i.e. to wash i.e. to dry, strand intensity is low, and whiteness is low, and strand is coarse, and quality is not as the product of semi-continuous spinning machine；For increasing strand obvolvent starching, during floss silk dyeing, slurry needs to remove, and increases downstream product production cost；High to raw material (viscose glue) prescription.It addition, the spinning roller of above-mentioned continuous spinning machine is still that longitudinally disposed relative to operative region, fix so its mounting means is also one end, or there is the problem in first prior art patent.

State Intellectual Property Office discloses Publication No. CN201089811 in 2008.7.23, entitled " viscose rayon deep spinning-bathing continuous spinning machine ", which disclose a kind of viscose rayon deep spinning-bathing continuous spinning machine, solve the problem that existing continuous spinning machine strand residue esterified degree height is brought.The scheme that this utility model uses is to be provided with acid bath groove between formed pipe and spinning pony roll, and the strand stretched out from formed pipe falls into equipped with walking to spinning pony roll after dipping bath in the acid bath groove of acid solution again.This utility model increases deep bath and spins, and strengthens the extent of reaction of strand, reduces and remain esterified degree, it is ensured that people's silk quality, and be applicable to the production of floss silk.

This technique belongs to " secondary bath " technique, and secondary bath acid temperature dense, sour is lower than one bathing, therefore needs to increase a set of independent acid bath system, increases acid station input cost.It addition, the spinning roller of above-mentioned continuous spinning machine is still that longitudinally disposed relative to operative region, fix so its mounting means is also one end, or there is the problem in first prior art patent.

State Intellectual Property Office discloses Publication No. CN2721660 in 2005.8.31, the utility model patent of entitled " be applicable to viscose filament yarn one ingot position and spin the Semi-continuous centrifugal spinning machine of three simultaneously ", the utility model discloses a kind of continuous centrifugal spinning-drawing machine being applicable to simultaneously spin three strands on an ingot position of Semi-continuous centrifugal spinning machine, the spinning-drawing machine of 18 spinning cakes in the often joint of this Semi-continuous centrifugal spinning machine, can be produced simultaneously.By the often joint at Semi-continuous centrifugal spinning machine, 18 electric ingots, the parts of 18 centrifugal cylinders are installed, can be in the case of not increasing equipment number of units, public operating cost, floor space and investment, save the maintenance time of spinning-drawing machine, reduce the production cost of single spinning cake, improve the utilization rate of spinning-drawing machine, and plant maintenance and easy to operate, make its production capacity reach original design ability after system equipment improves and reach 18 spinning cakes from original 6 spinning cakes of often joint or 12 spinning cakes；Meet quality of production requirement simultaneously.

Although the yield that unit often saves can improve yield due to increase electricity ingot, centrifugal cylinder device, but the speed times of spinning of this spinning-drawing machine does not so improve, and spins speed if improve, and can react insufficient quality affecting final products because of strand again.It addition, the spinning roller of above-mentioned semi-continuous spinning machine is still that longitudinally disposed relative to operative region, fix so its mounting means is also one end, or there is the problem in first prior art patent.

And for example Application No. 200920297370.0, filing date 2009-12-18, entitled " for the continuous spinning machine of viscose coarse denier flat filament ", its technical scheme is: the utility model discloses a kind of continuous spinning machine for viscose glue heavy denier yarn flat filament, including viscose glue measure and shape equipment, washing facility, drying plant with become cylinder device, the shaped device of viscose glue measure and shape equipment is glass formed pipe, washing facility is made up of multistage sink, and in glass formed pipe pipe, the strand of molding is drawn to sink by the hold-down roller of multistage sink；The downstream plant of multistage sink is drying plant, and drying plant is conveyer belt and steam drying machine, and the strand of multistage sink end is drawn to steam drying machine by hold-down roller, and steam drying machine is descending to be coupled with becoming cylinder device.Above-mentioned utility model is continuous spinning machine, is provided with the strand after drying plant, and drying and directly becomes cylinder, it becomes cylinder device to be positioned at the outside of drying plant, but owing to being integrated with drawing-off on spinning roller, acid is gone in washing, structure of drying and oil etc. so that complete machine structure is complicated, adds energy consumption.

In sum, in existing spinning technique, the coiler device of semi-continuous spinning machine is positioned at below spinning roller, owing to having water and acid solution drippage on spinning roller, so coiler device can be caused easily to be spun on roller water and the problem of acid solution pollution of drippage；And existing employing continuous spinning machine carries out in the technique of spinning, in order to finally give into the dry silk bar of cylinder, be integrated with drawing-off on spinning roller, acid is gone in washing, structure of drying and oil etc., make complete machine structure complicated, add the energy consumption in spinning process, additionally dry on spinning roller, be difficult to accurately control the moisture content of strand, due to the processing mode difference of the strand that spinning is obtained by subsequent step, so with regard to the uncontrollable strand obtaining being applicable to various subsequent step.

Summary of the invention

Present invention seek to address that above-mentioned the problems of the prior art, the spinning technique of a kind of novel spinning machine is provided, strand will not be polluted by residual liquid on spinning roller when winding, simplify the structure of spinning-drawing machine, spinning-drawing machine complete machine energy consumption in spinning process reduces, and can obtain, according to follow-up different process step, the strand that moisture content is different.

To achieve these goals, the concrete scheme of the present invention is as follows:

A kind of spinning technique of novel spinning machine, including glue supply, strand molding, spinning and winding, described glue supply is completed by glue feeder, described strand molding is completed by strand shaped device, described spinning is completed by device for spinning, described winding is completed by coiler device, it is characterized in that: described device for spinning includes many spinning rollers, the two ends of described spinning roller are fixed, independent drying draw roll it is provided with between spinning roller in described device for spinning, the shaped portion of described coiler device is the outside of region between the wallboard of frame both sides, the opposite side relative with face of spinning, described face of spinning refers to outside frame plate, it is provided with the region of strand shaped device, the opposite side relative with described region is referred to as the face of winding；The strand obtained after glue supply, strand molding and spinning process is through drying draw roll, then completes winding by coiler device, obtains the strand of winding shaping.

The strand obtained through glue supply, strand molding, around spinning roller, completes the drawing-off in spinning process under spinning roller rotates, solidifies and go acid, and the strand obtained is through drying draw roll, then completes to wind by coiler device, obtains the strand of winding shaping.

Drying draw roll of the present invention is positioned at the back segment region of spinning roller, and described drying draw roll is internal is cavity.

It is provided with heater in cavity of the present invention.

Strand of the present invention is shaped to cake dress silk and/or the strand dress silk of hygrometric state of the satisfied wound packages silk directly applying to the hygrometric state that twisting machine package requires and/or hygrometric state through described coiler device.

Coiler device of the present invention is positioned at the end face of spinning roller and is positioned at the outside of frame.

Frame of the present invention includes that at least two column, described wallboard are separately mounted on column.

The strand that obtains after glue supply, strand molding and spinning process of the present invention is through drying draw roll, then completes to wind by coiler device, obtain the strand of winding shaping particularly as follows:

Rayon spinning stock solution controls flow through dosing pump, through for sebific duct glue supply, spinning head is entered again by filter, strand is sprayed by the spinneret on spinning head, strand enters in pipe coagulation forming after shaped device or bath shaped device, the strand of molding runs to spinning roller, strand is around spinning roller, the drawing-off in spinning process is completed under spinning roller rotates, solidify and go acid, in described drawing-off, during solidifying and going acid, strand is also washed through water washing device, oil through oiling device, again through drying draw roll, the strand obtained completes winding by coiler device after drying draw roll derivation, obtain the strand of winding shaping.

Dosing pump of the present invention is that single pump of one-in-and-one-out, the double pump of one-in-and-two-out or one enter the pump having more.

The spinneret orifice diameter of spinning head of the present invention is 0.05-0.10mm.

Spinning head of the present invention in " one " font, fan-shaped or circular.

Filter of the present invention is arranged between dosing pump and spinning head.

In pipe of the present invention, shaped device includes reaction cup, formed pipe and filar guide；Described spinning head and one end of formed pipe are placed in reaction cup, and spinning head is corresponding with formed pipe, and strand sprays into formed pipe, and filar guide is positioned at the formed pipe other end.

In pipe of the present invention, the reaction cup of shaped device includes that cup and dividing plate, described dividing plate are positioned at cup, and described dividing plate is at least one, and cup is isolated at least two separate space by described dividing plate.

Formed pipe internal diameter Φ of the present invention is 4-15mm, a length of 800-2000mm.

The spinning roller stage casing of device for spinning of the present invention is provided above spraying the water washing device of mode, spinning roller back segment is provided above with spray or the oiling device of laminating type, described spinning roller is connected with two described columns, and described spinning roller is rotated by spinning driven by motor.

Washing 1, water washing device of the present invention include the spray equipment being arranged between two spinning rollers, and outside frame, it is provided with water inlet pipe, described spray equipment includes shower and mozzle, described shower is provided with spray apertures or nozzle, one end of described mozzle is fixed on shower, and is connected with spray apertures or nozzle, and the other end is water side, described water side is positioned at above relatively low spinning roller, and the water of spray apertures or nozzle ejection directly sprays on relatively low spinning roller.

Water side of the present invention is additionally provided with diversion screen, and the water of spray apertures or nozzle ejection is sprayed on relatively low spinning roller by diversion screen.

The a diameter of 5-10mm of sieve screen apertures of diversion screen of the present invention.

Washing 2, water washing device of the present invention include the spray equipment being arranged between two spinning rollers, described spray equipment includes shower, described shower is provided with spray apertures or nozzle, also include deflector, one end of described deflector is fixed on shower, the other end is water conservancy diversion end, and described water conservancy diversion end is positioned at the top of relatively low spinning roller, and the water of described spray apertures or nozzle ejection is directly sprayed on relatively low spinning roller by deflector.

Deflector of the present invention is 30-60 degree with the angle of described spinning roller place horizontal plane.

The water side of deflector of the present invention is provided with flow-stopping plate, and described flow-stopping plate is provided with overflow seam, and clean water stitches jet flow on relatively low spinning roller by overflow.

Being vertically provided with guiding gutter on deflector of the present invention, described guiding gutter is vertically arranged, and the water of described spray apertures or nozzle ejection imports flow-stopping plate by guiding gutter.

The width of overflow of the present invention seam is 5-10mm.

When spinning speed for 80-100m/min of spinning-drawing machine of the present invention, the spray flux of described water washing device is 100-120ml/min；When spinning speed for 100-120m/min of described spinning-drawing machine, the spray flux of described water washing device is 140-160ml/min；When spinning speed for 120-140m/min of described spinning-drawing machine, the spray flux of described water washing device is 200-260ml/min.

The water that water washing device of the present invention sprays out is vertical with described spinning roller, sprays a length of 100-500mm.

Oil 1, oiling device of the present invention is arranged in the frame of spinning-drawing machine, described oiling device includes oil groove, the both sides of the upper limb of described oil groove are respectively arranged with godet and draw roll, the described bottom in oil groove is provided with oil tanker, the medial wall of described oil groove is provided with sponge adsorbent equipment, strand is in the oil that the bottom of godet importing oil groove is walked around oil tanker and is immersed in bottom, then by sponge adsorbent equipment oil suction, then draws through draw roll and enter next procedure.

Oil 2, described oiling device is arranged in the frame of spinning-drawing machine, described oiling device includes oil tanker, spray bar, oil pump, oil storage tank and sponge adsorbent equipment, described spray bar is located at the top of oil tanker, it is provided with for the nozzle opening to oil tanker oil spout on spray bar, described oil storage tank is arranged on the lower section of oil tanker, described spray bar is connected with oil storage tank by oil pump, and described sponge adsorbent equipment is arranged on the sidewall of oil storage tank.

Sponge adsorbent equipment of the present invention is horizontally installed on the inwall of oil storage tank, and sponge adsorbent equipment is vertically provided with through hole, and strand is passed by described through hole.

Oiling device of the present invention also includes that oil wiper, described oil wiper are arranged on the lower surface of sponge adsorbent equipment, described oil wiper be two cooperate scrape oil tanker.

Spinning-drawing machine of the present invention spin speed when being 100 m/min, the oil preparation amount of described oiling device is 5-20 ml/min；Described spinning-drawing machine spin speed when being 120 m/min, the oil preparation amount of described oiling device is 5-35 ml/min；Described spinning-drawing machine spin speed when being 160 m/min, the oil preparation amount of described oiling device is 5-50 ml/min.

Being provided with guide wire apparatus on the column of side, winding face of the present invention, described guide wire apparatus includes that filar guide support and filar guide, described filar guide are arranged on filar guide support one end, and the described filar guide support other end is connected with described column；Strand from spinning roller out, by guide wire apparatus seal wire to coiler device.

During strand of the present invention is from spinning roller to guide wire apparatus, strand is 15-60 degree with the angle of horizontal plane.

During strand of the present invention is by guide wire apparatus seal wire to coiler device, strand is 30-90 degree with the angle of horizontal plane.

Described coiler device includes hygrometric state cake dress coiler device and/or hygrometric state wound packages coiler device and/or hygrometric state strand dress coiler device.

The metal tube shape of coiler device of the present invention includes paralleling tube, conically shaped, Fructus Ananadis comosi cylinder or spindle cylinder.

Hygrometric state wound packages coiler device of the present invention include actively hygrometric state coiler device or and passive hygrometric state coiler device.

Active hygrometric state coiler device of the present invention includes winding stand, support and metal pipe, it is provided with support on described winding stand, metal pipe it is provided with on described support, described metal pipe is provided above transverse link, described transverse link one end is provided with cross motor, the traveller corresponding with metal pipe it is provided with on described transverse link, described metal pipe one end is connected with electric rotating machine, described transverse link two ends are respectively arranged with transverse strands, and described transverse strands is arranged on winding stand.

Electric rotating machine of the present invention is connected with main shaft, and described metal pipe box is connected on main shaft, and described main shaft one end is connected with support by bearing.

Metal pipe of the present invention is multiple.

Multiple metal pipe of the present invention is socketed with same main shaft.

Multiple metal pipe of the present invention is respectively sleeved on a main shaft.

Described cross motor drives transverse link to carry out horizontal cross motion, traveller on transverse link carries out horizontal cross motion along with transverse link, and electric rotating machine drives metal pipe to rotate simultaneously, and wet strand passes through traveller seal wire, uniformly being wound up on metal pipe, winding speed is with to spin speed identical.

Passive hygrometric state coiler device of the present invention includes single spindle passive coiler device, the three passive coiler devices of ingot and the passive coiler device of axis.

Single spindle passive coiler device:

Two row's coiler devices are oppositely arranged:

Described single spindle passive coiler device include winding stand, neutralization chamber, support, take over a business, groove drum and metal pipe, left and right both sides on described winding stand are provided with support, described each support two ends are provided with, described two are provided with metal pipe between taking over a business, described lower section of respectively taking over a business is provided with groove drum, groove drum is fixed on winding stand by bearing block, is provided with neutralization chamber between the groove drum on described left and right both sides, and described each groove drum is individually connected with electric rotating machine.

Described each support is all singly connected with cross motor.

The support on described left and right both sides is for being oppositely arranged.

Described neutralization chamber is positioned in the middle part of winding stand.

Presetting in described neutralization chamber and ensure that strand is neutral or weakly alkaline oil preparation, described oil preparation is alkalescence.

Described cross motor drives the metal pipe on support to carry out horizontal cross motion, electric rotating machine described in Tong Shi drives groove drum to rotate, groove drum and metal pipe friction, metal pipe is driven to rotate, after being neutralized in neutralization chamber described in the entrance of wet strand, run to groove drum and be wound, during metal pipe moves, wet strand is uniformly wound up on metal pipe from groove drum again, and winding speed is with to spin speed identical.

Two row's coiler devices are oppositely arranged:

Described single spindle passive coiler device include winding stand, support, take over a business, groove drum and metal pipe, two row's supports it are provided with on described winding stand, described each support two ends are provided with, described two are provided with metal pipe between taking over a business, it is provided with groove drum below described metal pipe, groove drum is fixed on winding stand by bearing block, on row's support take over a business position than on another row's support to take over a business position high, described each groove drum is individually connected with electric rotating machine.

Described each support is all singly connected with cross motor.

On two described row's supports, two differences in height taken over a business are at least the height taking over a business lower section groove drum of shorter support.

The direction that two described row's supports are put is identical.

Described cross motor drives the metal pipe on support to carry out horizontal cross motion, electric rotating machine described in Tong Shi drives groove drum to rotate, groove drum and metal pipe friction, metal pipe is driven to rotate, wet strand runs to groove drum and is wound, during metal pipe moves, wet strand is uniformly wound up on metal pipe from groove drum again, and winding speed is with to spin speed identical.

The three passive coiler devices of ingot:

The three described passive coiler devices of ingot include winding stand, support, groove drum, bearing block, connector and metal pipe, described groove drum quantity is three, three described groove drums are linearly distributed, three described groove drums are socketed in same rotary shaft, described metal Guan Weisan, it is positioned at above groove drum, and position is corresponding with groove drum, three supports it are provided with on described winding stand, described each support two ends are provided with, described two are provided with described metal pipe between taking over a business, three described supports are connected with same transverse link, transverse link is connected by connector with support.

Described connector is corresponding with the position of groove drum.

Described transverse link connects cross motor.

Described rotary shaft is connected with electric rotating machine.

Described cross motor drives transverse link to carry out horizontal cross motion, transverse link drives the metal pipe on support to carry out horizontal cross motion, electric rotating machine described in Tong Shi drives groove drum to rotate, groove drum and metal pipe friction, driving metal pipe to rotate, wet strand runs to groove drum and is wound, during metal pipe moves, wet strand is uniformly wound up on metal pipe from groove drum again, and winding speed is with to spin speed identical.

The passive coiler device of axis

Two row's coiler devices are oppositely arranged:

The passive coiler device of described axis includes winding stand, neutralization chamber, support, metal pipe and groove drum, the described left side on winding stand, right both sides are provided with the support of more than three, described each support two ends are provided with, described two are provided with metal pipe between taking over a business, it is provided with groove drum below described each metal pipe, it is provided with passive tooth by each groove drum, the groove drum of described homonymy and passive tooth are arranged on same driven shaft, driving tooth it is provided with below passive tooth, passive tooth engages with driving tooth, each driving tooth center of described homonymy is provided through same driving shaft, a described left side, it is provided with neutralization chamber between the groove drum on right both sides.

The support on described left and right both sides is for being oppositely arranged.

Described driving tooth is socketed on driving shaft, and described driving shaft is connected with electric rotating machine.

Described left and right both sides are respectively arranged with a transverse link, and described transverse link is connected with support, and described two transverse links are connected to a cross motor.

Described neutralization chamber is positioned in the middle part of winding stand.

Presetting in described neutralization chamber and ensure that strand is neutral or weakly alkaline oil preparation, described oil preparation is alkalescence.

Described cross motor drives transverse link to carry out horizontal cross motion, transverse link drives the metal pipe on support to carry out horizontal cross motion, the driving shaft of the electric rotating machine drive motor described in Tong Shi rotates, driving shaft drives driving tooth to rotate, driving tooth drives passive tooth to rotate, passive tooth drives driven shaft to rotate, thus drive groove drum to rotate, groove drum and metal pipe friction, metal pipe is driven to rotate, after being neutralized in neutralization chamber described in the entrance of wet strand, run to groove drum be wound, during metal pipe moves, wet strand is uniformly wound up on metal pipe from groove drum again, winding speed is with to spin speed identical.

Two row's coiler devices are oppositely arranged:

The passive coiler device of described axis includes winding stand, support, metal pipe and groove drum, two row's supports it are provided with on described winding stand, each row's support at least includes the support of more than three, described each support two ends are provided with, described two take over a business between be provided with metal pipe, it is provided with groove drum below described each metal pipe, it is provided with passive tooth by each groove drum, the groove drum of described homonymy and passive tooth are arranged on same driven shaft, driving tooth it is provided with below passive tooth, passive tooth engages with driving tooth, described each driving tooth center with row is provided through same driving shaft, loose position of it's robbin on described row's support is higher than the loose position of it's robbin on another row's support.

On described two row's supports, two differences in height taken over a business are at least the height taking over a business lower section groove drum of shorter support.

The direction that described two row's supports are put is identical.

Described driving tooth is socketed on driving shaft, and described driving shaft is connected with electric rotating machine.

Described two row's supports are connected with a transverse link respectively, and described two transverse links are connected to a cross motor.

Described cross motor drives transverse link to carry out horizontal cross motion, transverse link drives the metal pipe on support to carry out horizontal cross motion, the driving shaft of the electric rotating machine drive motor described in Tong Shi rotates, driving shaft drives driving tooth to rotate, driving tooth drives passive tooth to rotate, passive tooth drives driven shaft to rotate, thus drive groove drum to rotate, groove drum and metal pipe friction, driving metal pipe to rotate, wet strand runs to groove drum and is wound, during metal pipe moves, wet strand is uniformly wound up on metal pipe from groove drum again, and winding speed is with to spin speed identical.

Hygrometric state cake dress coiler device:

Described hygrometric state cake dress coiler device includes centrifugal cylinder, bearing and bearing body, described bearing body is positioned in a bearing, also include labyrinth shell and centrifugal shaft, described labyrinth casing is connected on bearing body, it is connected with labyrinth wharve on the shell of described labyrinth, described centrifugal shaft is monoblock type major axis, described centrifugal shaft through labyrinth shell and bearing body, wharve top, described labyrinth is connected with centrifugal cylinder, wharve bottom, described labyrinth constitutes multilamellar pneumostop structure with labyrinth shell, and described centrifugal shaft upper end is connected with bottom centrifugal cylinder.

Described monoblock type major axis be connected above upper bearing (metal), the lower section of monoblock type major axis connects lower bearing.

Described upper bearing (metal) is arranged between centrifugal shaft upper end and wharve lower end, labyrinth, and is fixed in shell upper end, labyrinth；Described lower bearing is arranged on centrifugal shaft lower end and is fixed in bearing body.

Being provided with damping at described lower bearing, described is provided with shock absorbing ring and cushion between bearing and bearing body.

O type O-ring seal it is provided with between described labyrinth outer casing underpart and bearing body.

Also including driving motor, described driving motor specifically includes a rotor being fixed on monoblock type major axis and a stator being fixed in the shell of labyrinth.

Described stator includes multiple iron core and winding, described embedding winding unshakable in one's determination.

Hygrometric state strand dress coiler device:

Described hygrometric state strand dress coiler device includes strand dress motor, friction pulley, strand frame, twisted axis, traversing carriage and traversing connecting rod, described strand dress motor is connected with friction pulley by rotary shaft, friction pulley at least two, friction pulley is connected with twisted axis, described traversing carriage is connected with traversing connecting rod, described traversing connecting rod is positioned at above strand frame, and described traversing connecting rod one end is connected with traversing motor.

Described strand frame is that hexagon twists frame.

Described strand frame is socketed on twisted axis, and one end of described hinge is provided with bearing, and described bearing is arranged on strand dress support one end, and the described strand dress support other end is connected with the other end of hinge by bearing.

Seal wire hook it is provided with on described traversing carriage.

Air exhausting device, frame surrounding is had to be provided with movable transparent protective window above frame.

The Advantageous Effects that the present invention brings:

1, external due to the coiler device in spinning technique of the present invention, therefore under sour environment, little to the corrosivity of strand, winding apparatus and control system thereof, it is easy to maintenance and operative, owing to existing centrifugal cylinder needs high speed rotating, so energy consumption is high, and coiler device of the present invention has only to meet the speed of spinning roller, without other energy consumptions, so complete machine power is little.Owing to being provided with independent drying draw roll between device for spinning, so strand is when spinning roller back segment is walked, can be through drying draw roll, now it is independently of spinning roller due to drying draw roll, so when drying strand, can effectively control to dry temperature and time, and the size drying draw roll can be adjusted as required, the rotating speed of draw roll can also require to be adjusted according to actual production.

2, the semi-continuous spinning machine in existing spinning technique and continuous spinning machine can not excessively carry high-speed spinning, it is because after the rotating speed of spinning roller improves, the speed also needing to improve elevating mechanism matches, and elevating mechanism speed improves limited, the rotating speed of centrifugal cylinder also needs to match simultaneously, but its rotating speed is too high, stability reduces, and causes spinning cake shaping bad.And due to the fact that the multiple winding method of employing, rotating speed can be greatly improved, and present invention eliminates elevating mechanism, therefore changes the mode of strand molding, after the speed of spinning roller improves, it is only necessary to the corresponding speed improving coiler device.

3, present invention, avoiding the problems such as the energy consumption directly carrying out drying on spinning roller and produce increases, drying degree is wayward.

4, spinning technique of the present invention can realize spinning speed and reaches more than 140 ms/min, owing to the spinning roller two ends of device for spinning are the most fixing, so the rotating speed of spinning roller can be more unsettled than existing spinning-drawing machine spinning roller rotating speed promote more, and it is more stable, do not result in spinning roller to wave at high speeds, reduce fault rate during spinning-drawing machine high speed spinning.

5, the spinning-drawing machine compact conformation in spinning technique of the present invention, floor space is little.

6, the spinning technique of the present invention is easy to operate, and is easy to the quality control under high speed spinning.

7, each spinning head can be divided into independent conversion zone by the reaction cup dividing plate of the glue feeder in spinning technique of the present invention, glue supply situation in each region will not be influenced each other, the glue supply amount in each region is average, make the size after later stage strand molding the most unified, it is to avoid the situation that strand thickness is uneven occurs.

8, the first water washing device in spinning technique of the present invention includes the mozzle on lower spinning roller of the cleanout fluid spray for spray apertures or nozzle being sprayed, the mouth of pipe of described mozzle is square, described mozzle one end is fixed on shower, and the water of spray apertures or nozzle ejection is sprayed directly on on lower spinning roller by mozzle.Change directly to be sprayed by the rinse water of spray apertures or nozzle ejection before and wash strand, and the present invention passes through the mozzle direct water conservancy diversion of water by cleaning on lower spinning roller, one prevents rinse water splashes, it two makes rinse water form moisture film on lower spinning roller, strand is immersed on the moisture film of lower spinning roller and embathes, thus improves cleaning performance.

9, in the first water washing device in spinning technique of the present invention, the mozzle other end is provided with diversion screen, described diversion screen is grid-like, the grid aperture of diversion screen is 5-10mm, the rinse water of spray apertures or nozzle ejection is by mozzle and the diversion screen of its water side, rinse water is sprayed uniformly on lower spinning roller, therefore descending the uniform moisture film being more likely formed on spinning roller, strand embathes, evenly.

10, in the second water washing device in spinning technique of the present invention, spray equipment includes shower and deflector, described water inlet pipe communicates with shower, described shower is provided with spray apertures or nozzle, one end of described deflector is fixed on shower, the other end of deflector is water side, described water side is positioned at the top of lower spinning roller, and the water of described spray apertures or nozzle ejection is through deflector, and is directly sprayed on lower spinning roller by water side.And the water in shower is directly led on lower spinning roller by the present invention by deflector, the water of spray forms moisture film on lower spinning roller, then strand leaching is walked and is carried out on the lower spinning roller that periphery forms moisture film, and its cleaning performance more, avoids the water splashes cleaning strand simultaneously.

11, in the second water washing device in spinning technique of the present invention, the water side of deflector is provided with flow-stopping plate, described flow-stopping plate is provided with overflow seam, clean water is pooled together by flow-stopping plate and forms the bigger water yield, by overflow seam jet flow on lower spinning roller, become like the same current of waterfall compared with the rinse water of big yield by overflow slit, spray is on lower spinning roller, and the moisture film on lower spinning roller is formed more uniform, improves the cleaning performance of strand.

12, it is vertically provided with guiding gutter on the second water washing device deflector in spinning technique of the present invention, described guiding gutter is vertically arranged, the water of described spray apertures or nozzle ejection imports flow-stopping plate by guiding gutter, the water of spray apertures or nozzle ejection will not form diffusing on deflector, and therefore rinse water is more easy to form uniform moisture film on lower spinning roller.

13, the first oiling device in spinning technique of the present invention includes oil groove, spinning roller, draw roll, oil tanker and sponge adsorbent equipment, the both sides of the upper limb of described oil groove are respectively arranged with spinning roller and draw roll, described oil tanker is arranged on the bottom of oil groove, the medial wall of described oil groove is provided with sponge adsorbent equipment, strand is in the oil that the bottom of spinning roller importing oil groove is walked around oil tanker and is immersed in bottom, again by sponge adsorbent equipment oil suction, then draw through draw roll and enter next procedure.In this technical scheme strand oil and removing oil all complete in oil groove, the i.e. bottom at oil groove fills the oil for oiling to strand, oil tanker is arranged on bottom, strand is in spinning roller imports the oil bottom oil groove, and be pressed in oil by oil tanker, strand is completely submerged in oil and completes to oil, and therefore strand oils full, uniform, woods and improve the oil applying rate of strand.The medial wall of oil groove is provided with sponge adsorbent equipment simultaneously, after strand oils, in spinning roller and the effect of draw roll, the strand oiled is through sponge adsorbent equipment, oil more than strand rich surface is adsorbed and falls in oil groove, prevent the greasy dirt dye working environment on strand, decrease the waste of oil simultaneously.

14, in the first oiling device in spinning technique of the present invention, sponge adsorbent equipment is horizontally installed on the inwall of oil groove, sponge adsorbent equipment is vertically provided with through hole, strand is passed by described through hole, which obviates the oil on strand and throws away oil groove, pollutes workbench and causes the waste of oil.

15, the first oiling device in spinning technique of the present invention includes that oil wiper, described oil wiper are arranged on the lower surface of sponge adsorbent equipment, described oil wiper be two cooperate scrape oil tanker.Strand after oiling, the oil wiper first passing through two frizing wheel compositions is removed the oil of strand excess surface, it is ensured that the adsorption effect of follow-up oil.

16, the second oiling device in spinning technique of the present invention includes oil tanker, spray bar, oil pump, oil storage tank and sponge adsorbent equipment, described spray bar is located at the top of oil tanker, it is provided with for the nozzle opening to oil tanker oil spout on spray bar, described oil storage tank is arranged on the lower section of oil tanker, described spray bar is connected with oil storage tank by oil pump, and described sponge adsorbent equipment is arranged on the sidewall of oil storage tank；Strand is under the driving that godet roller and drawing-off are taken turns, walk around oil tanker, oil in spray bar is sprayed on oil tanker by nozzle opening thereon, oil forms oil film on oil tanker, strand leaching is walked in the oil film formed on oil tanker, strand oils full, uniform, thus improve the oil applying rate of strand, strand after oiling adsorbs through sponge adsorbent equipment and strikes off the oil of its excess surface, these oil are all flowed in oil storage tank, oil in oil storage tank is constantly extracted in spray bar by oil pump, is oiled strand by nozzle opening.Both the oil applying rate of strand had been greatly improved, and the excess oil on strand will not pollute work top, excess oil automatically falls in oil storage tank, it is to avoid the waste of oil.

17, the sponge adsorbent equipment of the second oiling device in spinning technique of the present invention is horizontally installed on the inwall of oil storage tank, sponge adsorbent equipment is vertically provided with through hole, strand passes by described through hole, it is to avoid the oil on strand throws away oil groove, pollutes workbench and also causes the waste of oil.

18, the second oiling device in spinning technique of the present invention includes that oil wiper, described oil wiper are arranged on the lower surface of sponge adsorbent equipment, described oil wiper be two cooperate scrape oil tanker.Strand after oiling, the oil wiper first passing through two frizing wheel compositions is removed the oil of strand excess surface, it is ensured that the adsorption effect of excess oil.

19, the hygrometric state coiler device in spinning technique of the present invention is active winding device, and the metal pipe of described active winding device is directly connected with electric rotating machine, and such motor can be directed to metal pipe and be driven so that driving force when metal pipe rotates is higher；And there is transverse link owing to connecting on support, transverse link connects cross motor, so cross motor can drive support to do the transverse movement of left and right, the metal pipe of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe thus causes the situation of the strand skewness on metal pipe, enables the strand on metal pipe to be uniformly distributed according to the shape of metal pipe.

20, the hygrometric state coiler device in spinning technique of the present invention is active winding device, it is provided with traveller on the transverse link of described active winding device, strand can be transmitted direction and be adjusted by traveller, and the strand after adjustment then can enter metal pipe from more preferable angle, facilitates follow-up winding.

21, the hygrometric state coiler device in spinning technique of the present invention is active winding device, metal pipe on described active winding device can be one, can also be multiple, quantity can be adjusted according to actual production demand, when using multiple metal pipe, multiple metal pipes can be socketed with a driving shaft simultaneously, can also individually be socketed with a driving shaft by each metal pipe, thus can realize single transmission axle and control multiple metal pipe simultaneously, or single transmission axle controls the effect of single metal pipe.

22, passive hygrometric state coiler device in spinning technique of the present invention is single spindle passive coiler device, the first structure of single spindle passive coiler device includes winding stand, neutralization chamber, support, take over a business, groove drum and metal pipe, left, it is provided with neutralization chamber between the groove drum on right both sides, metal pipe is driven rotation by the rotation of groove drum, and groove drum is driven by electric rotating machine and rotates, thus avoid electric rotating machine to be directly connected with metal pipe, thus cause metal pipe excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine power, groove drum utilizes frictional force to drive metal pipe to rotate, due to revolving force by groove drum transition once, so that the dynamics driving metal pipe to rotate is more steady, rotating speed generation saltus step will not be made；Strand middle acid substance can be neutralized by neutralization chamber so that strand keeps faintly acid or keeps neutrality etc. according to demand, is conducive to the process of next step operation；And each groove drum is individually connected with an electric rotating machine, so when multiple groove drums work together, electric rotating machine corresponding to each groove drum individually can be adjusted, to be suitable for different demands, also more easily each groove drum and corresponding metal pipe can individually be keeped in repair or change.

23, the passive hygrometric state coiler device in spinning technique of the present invention is single spindle passive coiler device, connect on support in the first structure of single spindle passive coiler device and have transverse link, transverse link connects cross motor, so cross motor can drive support to do the transverse movement of left and right, the metal pipe of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe thus causes the situation of the strand skewness on metal pipe, enables the strand on metal pipe to be uniformly distributed according to the shape of metal pipe.

24, the passive hygrometric state coiler device in spinning technique of the present invention is single spindle passive coiler device, the first structure of single spindle passive coiler device has what left and right both sides were oppositely arranged support, the distributed architecture of support can enable at least two group strands be wound in side simultaneously, and these two groups of strands can share a neutralization chamber, also save space, the position shared by single spindle passive coiler device can be reduced to greatest extent, inside limited space, place more single spindle passive coiler device.

25, passive hygrometric state coiler device in spinning technique of the present invention is single spindle passive coiler device, the second structure of single spindle passive coiler device includes winding stand, support, take over a business, groove drum and metal pipe, on one row's support take over a business position than on another row's support to take over a business position high, described each groove drum is individually connected with electric rotating machine, metal pipe is driven rotation by the rotation of groove drum, and groove drum is driven by electric rotating machine and rotates, thus avoid electric rotating machine to be directly connected with metal pipe, thus cause metal pipe excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine power, groove drum utilizes frictional force to drive metal pipe to rotate, due to revolving force by groove drum transition once, so that the dynamics driving metal pipe to rotate is more steady, rotating speed generation saltus step will not be made；And two row's supports in single spindle passive coiler device exist difference in height, difference in height is advantageous in that when at least two group strands are respectively at the loose winding on bobbins of two groups, mutually will not disturb；Each groove drum is individually connected with an electric rotating machine, so when multiple groove drums work together, electric rotating machine corresponding to each groove drum individually can be adjusted, to be suitable for different demands, also more easily each groove drum and corresponding metal pipe can individually be keeped in repair or change.

26, the passive hygrometric state coiler device in spinning technique of the present invention is single spindle passive coiler device, connect on support in the second structure of single spindle passive coiler device and have transverse link, transverse link connects cross motor, so cross motor can drive support to do the transverse movement of left and right, the metal pipe of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe thus causes the situation of the strand skewness on metal pipe, enables the strand on metal pipe to be uniformly distributed according to the shape of metal pipe.

27, passive hygrometric state coiler device in spinning technique of the present invention is single spindle passive coiler device, in the second structure of single spindle passive coiler device, on two row's supports, two differences in height taken over a business are at least the height taking over a business lower section groove drum of shorter support, make the height that difference in height is whole support of row's support that shorter row's support is the lowest Yu higher, make strand when two rows wind, will not interact completely, and the placing direction of two row's supports is identical, so metal pipe or groove drum are being safeguarded or are being changed by workman, and when taking out metal pipe, normal work all without the parts having influence on other.

28, passive hygrometric state coiler device in spinning technique of the present invention is the three passive coiler devices of ingot, the three passive coiler devices of ingot include winding stand, support, groove drum, bearing block, connector and metal pipe, described every three groove drums and an electric rotating machine are connected, metal pipe is driven rotation by the rotation of groove drum, and groove drum is driven by electric rotating machine and rotates, thus avoid electric rotating machine to be directly connected with metal pipe, thus cause metal pipe excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine power, groove drum utilizes frictional force to drive metal pipe to rotate, due to revolving force by groove drum transition once, so that the dynamics driving metal pipe to rotate is more steady, rotating speed generation saltus step will not be made；Three groove drums are a ultimate unit and an electric rotating machine is connected, three groove drums realize synchronized rotation, thus drive corresponding metal pipe to do synchronized rotation, owing to the strand of spinning-drawing machine in most cases is all at least three strands, so three groove drums disclosure satisfy that production needs.

29, the passive hygrometric state coiler device in spinning technique of the present invention is the three passive coiler devices of ingot, connect on the support of the three passive coiler devices of ingot and have transverse link, transverse link connects cross motor, so cross motor can drive support to do the transverse movement of left and right, the metal pipe of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe thus causes the situation of the strand skewness on metal pipe, enables the strand on metal pipe to be uniformly distributed according to the shape of metal pipe.

30, the passive hygrometric state coiler device in spinning technique of the present invention is the passive coiler device of axis, the first structure of the passive coiler device of axis includes winding stand, neutralization chamber, support, metal pipe and groove drum, each support two ends are provided with, it is provided with passive tooth by each groove drum, the groove drum of described homonymy and passive tooth are arranged on same driven shaft, being provided with driving tooth below passive tooth, passive tooth engages with driving tooth, and each driving tooth center of described homonymy is provided through same driving shaft；The plurality of groove drum and an electric rotating machine are connected, metal pipe is driven rotation by the rotation of groove drum, and groove drum is driven by electric rotating machine and rotates, thus avoid electric rotating machine to be directly connected with metal pipe, thus causing metal pipe excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine power, groove drum utilizes frictional force to drive metal pipe to rotate, due to revolving force by groove drum transition once, so that the dynamics driving metal pipe to rotate is more steady, rotating speed generation saltus step will not be made；And the present invention uses the mode of gear engagement and carries out the transmission of power, the form i.e. using the engagement of driving tooth and passive tooth carries out the transmission of power, this structure makes power more stable when transmission, when rotary shaft is beated or during velocity jump, owing to using multi-gear engagement, it is possible to the negative effect that the unstable situation effectively eliminating these bursts is brought so that strand is more stable in winding process, uniform；Strand middle acid substance can be neutralized by neutralization chamber so that strand keeps faintly acid or keeps neutrality etc. according to demand, is conducive to the process of next step operation；And each groove drum is individually connected with an electric rotating machine, so when multiple groove drums work together, electric rotating machine corresponding to each groove drum individually can be adjusted, to be suitable for different demands, also more easily each groove drum and corresponding metal pipe can individually be keeped in repair or change.

31, the passive hygrometric state coiler device in spinning technique of the present invention is the passive coiler device of axis, connect on the support of the first structure of the passive coiler device of axis and have transverse link, transverse link connects cross motor, so cross motor can drive support to do the transverse movement of left and right, the metal pipe of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe thus causes the situation of the strand skewness on metal pipe, enables the strand on metal pipe to be uniformly distributed according to the shape of metal pipe.

32, the passive hygrometric state coiler device in spinning technique of the present invention is the passive coiler device of axis, the first structure of the passive coiler device of axis has what left and right both sides were oppositely arranged support, the distributed architecture of support can enable at least two group strands be wound in side simultaneously, and these two groups of strands can share a neutralization chamber, also save space, the position shared by single spindle passive coiler device can be reduced to greatest extent, inside limited space, place the passive coiler device of more axis.

33, the passive hygrometric state coiler device in spinning technique of the present invention is the passive coiler device of axis, the second structure of the passive coiler device of axis includes winding stand, support, metal pipe and groove drum, each support two ends are provided with, it is provided with passive tooth by each groove drum, the groove drum of described homonymy and passive tooth are arranged on same driven shaft, being provided with driving tooth below passive tooth, passive tooth engages with driving tooth, and each driving tooth center of described homonymy is provided through same driving shaft；The plurality of groove drum and an electric rotating machine are connected, metal pipe is driven rotation by the rotation of groove drum, and groove drum is driven by electric rotating machine and rotates, thus avoid electric rotating machine to be directly connected with metal pipe, thus causing metal pipe excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine power, groove drum utilizes frictional force to drive metal pipe to rotate, due to revolving force by groove drum transition once, so that the dynamics driving metal pipe to rotate is more steady, rotating speed generation saltus step will not be made；And the present invention uses the mode of gear engagement and carries out the transmission of power, the form i.e. using the engagement of driving tooth and passive tooth carries out the transmission of power, this structure makes power more stable when transmission, when rotary shaft is beated or during velocity jump, owing to using multi-gear engagement, it is possible to the negative effect that the unstable situation effectively eliminating these bursts is brought so that strand is more stable in winding process, uniform；And two row's supports in single spindle passive coiler device exist difference in height, difference in height is advantageous in that when at least two group strands are respectively at the loose winding on bobbins of two groups, mutually will not disturb.

34, the passive hygrometric state coiler device in spinning technique of the present invention is the passive coiler device of axis, connect on support in the second structure of the passive coiler device of axis and have transverse link, transverse link connects cross motor, so cross motor can drive support to do the transverse movement of left and right, the metal pipe of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe thus causes the situation of the strand skewness on metal pipe, enables the strand on metal pipe to be uniformly distributed according to the shape of metal pipe.

35, passive hygrometric state coiler device in spinning technique of the present invention is the passive coiler device of axis, in the second structure of the passive coiler device of axis, on two row's supports, two differences in height taken over a business are at least the height taking over a business lower section groove drum of shorter support, make the height that difference in height is whole support of row's support that shorter row's support is the lowest Yu higher, make strand when two rows wind, will not interact completely, and the placing direction of two row's supports is identical, so metal pipe or groove drum are being safeguarded or are being changed by workman, and when taking out metal pipe, normal work all without the parts having influence on other.

36, the dress of the hygrometric state cake in spinning technique of the present invention coiler device includes centrifugal cylinder, bearing and bearing body, described bearing body is positioned in a bearing, also include labyrinth shell and centrifugal shaft, monoblock type major axis simple in construction of the present invention, owing to it is integral design, so being hardly damaged, and monoblock type major axis is lightweight, can the most normally work, owing to have employed single-shaft configuration, so the height of overall electricity ingot can be reduced.

37, the bearing body of the dress of the hygrometric state cake in spinning technique of the present invention coiler device is provided with damping ring with a bearing and cushion blocking is connected, and easily splits.This structure makes the connection between electricity ingot and bracing frame connect for elasticity, the mechanical vibration produced when can fully eliminate electricity ingot operating and resonance, without substantially shaking head phenomenon when electricity ingot starts and brakes, operate steadily, vibrate little, start and braking is fast, can run up for a long time, and improve electricity ingot motor and the service life of bearing.Shock absorbing ring and shock absorbing ring and cushion are that vertical and horizontal rise effective damping effect.Top have employed labyrinth wharve rotation and labyrinth shell relative motion reaches waterproof sealing, and lower section O type O-ring seal seals, it is achieved that electricity ingot can realize acidity in wet condition and spin.Spoilage is low, and overload capacity is strong.

38, the strand of the hygrometric state in spinning technique of the present invention dress coiler device includes strand dress motor, friction pulley, strand frame, twisted axis, traversing carriage and traversing connecting rod, friction pulley is utilized to transmit the power of strand dress motor, the rotation making hinge and strand frame is more stable, and friction pulley is made up of the cylindrical friction wheel of two mutual compressions, when working properly, friction pulley can drive hinge revolution by the effect of frictional force, and makes the rotation ratio that transmission is kept essentially constant.Use friction pulley can make whole strand dress being simple to manufacture of coiler device, operate steadily, noise the least；Skid during overload, therefore damage parts important in machine can be prevented, the change gear ratio that energy is electrodeless.

39, the strand frame of the strand of the hygrometric state in spinning technique of the present invention dress coiler device is that hexagon twists frame, strand coiling can be the hexagon of hygrometric state by hexagon strand frame, so strand after winding is tightr, do not have loose situation so that follow-up transport, drying or the dyeing process of strand can preferably be carried out.

40, the strand frame of the strand of the hygrometric state in spinning technique of the present invention dress coiler device is socketed on twisted axis, one end of hinge is provided with bearing, bearing is arranged on strand dress support one end, the described strand dress support other end is connected with the other end of hinge by bearing, hinge is by bearing and strand dress support, it is simple to the rotation of hinge is unaffected.

Accompanying drawing explanation

The side view of the existing Semi-continuous centrifugal spinning machine of Fig. 1.

The front view of the existing Semi-continuous centrifugal spinning machine of Fig. 2.

The existing Semi-continuous centrifugal spinning machine of Fig. 3 spins the top view in face.

The front view in the face of spinning of Fig. 4 existing continuous centrifugal spinning-drawing machine.

The front view of Fig. 5 existing continuous centrifugal spinning-drawing machine.

Fig. 6 existing continuous centrifugal spinning-drawing machine spins the top view in face.

Fig. 7 is the structural representation of the side-looking of spinning-drawing machine of the present invention.

Fig. 8 is the structural representation that the master of spinning-drawing machine of the present invention regards.

Fig. 9 is the structural representation of the vertical view of spinning-drawing machine of the present invention.

Figure 10 is the structural representation of the one-in-and-two-out dosing pump of the present invention.

Figure 11 is that the one of the present invention enters three structural representations going out dosing pump.

Figure 12 is the structural representation of the bath of the present invention.

Figure 13 be the present invention pipe in the structural representation of molding.

Figure 14 is the structural representation of the shower nozzle of the present invention.

Figure 15 is the schematic diagram of the first structure of water washing device of the present invention.

Figure 16 is the A-A view of the first structure of water washing device of the present invention.

Figure 17 is the top view of the first structure of water washing device of the present invention.

Figure 18 is the schematic diagram of water washing device the second structure of the present invention.

Figure 19 is the A-A view of water washing device the second structure of the present invention.

Figure 20 is the top view of water washing device the second of the present invention.

Figure 21 is the schematic diagram of the first structure of oiling device of the present invention.

Figure 22 is the side view of the first structure of oiling device of the present invention.

Figure 23 is the schematic diagram of oiling device the second structure of the present invention.

Figure 24 is the side view of oiling device the second structure of the present invention.

Figure 25 is the active hygrometric state coiler device structural representation of the present invention.

Figure 26 is the schematic diagram of single spindle passive the first structure of coiler device of the present invention.

Figure 27 is the top view of single spindle passive the first structure of coiler device of the present invention.

Figure 28 is the schematic diagram of single spindle passive coiler device the second structure of the present invention.

Figure 29 is the top view of single spindle passive coiler device the second structure of the present invention.

Figure 30 is the side view of the three passive coiler devices of ingot of the present invention.

Figure 31 is the top view of the three passive coiler devices of ingot of the present invention.

Figure 32 is the schematic diagram of axis the first structure of passive coiler device of the present invention.

Figure 33 is the top view of axis the first structure of passive coiler device of the present invention.

Figure 34 is the schematic diagram of axis passive coiler device the second structure of the present invention.

Figure 35 is the top view of axis passive coiler device the second structure of the present invention.

Figure 36 is the structural representation of the hygrometric state cake dress coiler device of the present invention.

Figure 37 is the structural representation of the hygrometric state strand dress coiler device of the present invention.

Figure 38 be coiler device of the present invention be hygrometric state cake dress coiler device time distribution schematic diagram.

Figure 39 be coiler device of the present invention be distribution schematic diagram during hygrometric state wound packages coiler device.

Figure 40 be coiler device of the present invention be hygrometric state strand dress coiler device time distribution schematic diagram.

Figure 41 be coiler device of the present invention be hygrometric state cake dress coiler device and hygrometric state wound packages coiler device combination time distribution schematic diagram.

Figure 42 be coiler device of the present invention be hygrometric state cake dress coiler device and hygrometric state strand dress coiler device combination time distribution schematic diagram.

Figure 43 be coiler device of the present invention be hygrometric state wound packages coiler device and hygrometric state strand dress coiler device combination time distribution schematic diagram.

Figure 44 be coiler device of the present invention be hygrometric state cake dress coiler device, hygrometric state wound packages coiler device and hygrometric state strand dress coiler device combination time distribution schematic diagram.

In accompanying drawing:

Frame 1, glue feeder 2, strand shaped device 3, device for spinning 4, coiler device 5, wallboard 6, winding face 7.

Water washing device 41, oiling device 42, hygrometric state cake dress coiler device 51, hygrometric state wound packages coiler device 52, hygrometric state strand dress coiler device 53.

Spin face 101, column 1101.

Dosing pump 201, for sebific duct 202, filter 203.

Spinning head 301, bath shaped device 302, shaped device 303 in pipe, reaction cup 304, formed pipe 305, filar guide 306, dividing plate 307, cup 308.

Dry draw roll 404.

Shower 4101, spray apertures or nozzle 4102, mozzle 4103, diversion screen 4104, screen cloth 4105, deflector 4106, flow-stopping plate 4107, overflow seam 4108, guiding gutter 4109.

Oil groove 4201, godet 4202, draw roll 4203, oil tanker 4204, oil 4205, sponge adsorbent equipment 4206, through hole 4207, scrape oil tanker 4208, strand 4209, oil pump 4210, spray bar 4211, nozzle opening 4212, oil storage tank 4213.

Winding stand 5201, support 5202, metal pipe 5203, transverse link 5204, cross motor 5205, electric rotating machine 5206, transverse strands 5207, traveller 5208, main shaft 5209, bearing 5210, neutralization chamber 5211, take over a business 5212, groove drum 5213, bearing block 5214, connector 5215, rotary shaft 5216, passive tooth 5217, driven shaft 5218, driving tooth 5219, driving shaft 5220.

Centrifugal cylinder 5100, a bearing 5101, bearing body 5102, labyrinth shell 5103, centrifugal shaft 5104, labyrinth wharve 5105, upper bearing (metal) 5106, lower bearing 5107, damp 5108, shock absorbing ring and cushion 5109, O type O-ring seal 5110, rotor 5111, stator 5112, unshakable in one's determination 5113, winding 5114.

Strand dress motor 5301, friction pulley 5302, strand frame 5303, twisted axis 5304, traversing carriage 5305, traversing connecting rod 5306, rotary shaft 5307, traversing motor 5308, bearing 5309, seal wire hook 5310.

Detailed description of the invention

Embodiment 1

A kind of spinning technique of novel spinning machine, including glue supply, strand molding, spinning and winding, described glue supply is completed by glue feeder 2, described strand molding is completed by strand shaped device 3, described spinning is completed by device for spinning 4, described winding is completed by coiler device 5, described device for spinning 4 includes many spinning rollers, the two ends of described spinning roller are fixed, it is provided with independent drying draw roll 404 between the described spinning roller in device for spinning 4, the shaped portion of described coiler device 5 is the outside of region between frame 1 both sides wallboard 6, the opposite side relative with spinning face 101, described face 101 of spinning refers to outside frame 1 wallboard 6, it is provided with the region of strand shaped device 3, the opposite side relative with described region is referred to as winding face 7；The strand obtained after glue supply, strand molding and spinning process is through drying draw roll 404, then completes winding by coiler device 5, obtains the strand of winding shaping.

Coiler device 5 external due to invention, therefore under sour environment, little to the corrosivity of strand, winding apparatus and control system thereof, it is easy to maintenance and operative, owing to existing centrifugal cylinder 5100 needs high speed rotating, so energy consumption is high, and coiler device of the present invention 5 has only to meet the speed of spinning roller, without other energy consumptions, so complete machine power is little.Owing to being provided with independent drying draw roll 404 between device for spinning 4, so strand is when spinning roller back segment is walked, can be through drying draw roll 404, now it is independently of spinning roller due to drying draw roll 404, so when drying strand, can effectively control to dry temperature and time, and the size drying draw roll 404 can be adjusted as required, the rotating speed drying draw roll 404 can also require to be adjusted according to actual production.

Glue is delivered to strand shaped device 3 by glue feeder 2, glue is made strand by strand shaped device 3, strand after molding is after the drawing-off of device for spinning 4 and washing go acid drying etc. to process, more simultaneously through drying draw roll 404, finally enters to coiler device 5 and is wound the finished product that formed.

Embodiment 2

A kind of spinning technique of novel spinning machine, including glue supply, strand molding, spinning and winding, described glue supply is completed by glue feeder 2, described strand molding is completed by strand shaped device 3, described spinning is completed by device for spinning 4, described winding is completed by coiler device 5, described device for spinning 4 includes many spinning rollers, the two ends of described spinning roller are fixed, it is provided with independent drying draw roll 404 between the described spinning roller in device for spinning 4, the shaped portion of described coiler device 5 is the outside of region between frame 1 both sides wallboard 6, the opposite side relative with spinning face 101, described face 101 of spinning refers to outside frame 1 wallboard 6, it is provided with the region of strand shaped device 3, the opposite side relative with described region is referred to as winding face 7；The strand obtained after glue supply, strand molding and spinning process is through drying draw roll 404, then completes winding by coiler device 5, obtains the strand of winding shaping.

Coiler device 5 is positioned at the end face of spinning roller and is positioned at the outside of frame 1.Drying draw roll 404 and be positioned at the back segment region of spinning roller, described drying draw roll 404 is internal is cavity.Heater it is provided with in cavity.Strand is shaped to meet the cake dress silk of the hygrometric state directly applying to twisting machine package requirement, wound packages silk and/or strand dress silk through described coiler device 5.Frame 1 includes that at least two columns 1101, described wallboard 6 are separately mounted on column 1101.Described heater can be water heating, electrical heating or other heating arrangements existing.

Glue is delivered to strand shaped device 3 by glue feeder 2, glue is made strand by strand shaped device 3, strand after molding is after the drawing-off of device for spinning 4 and washing go acid drying etc. to process, more simultaneously through drying draw roll 404, finally enters to coiler device 5 and is wound the finished product that formed.

Coiler device 5 external due to the present invention, therefore under sour environment, little to the corrosivity of strand, winding apparatus and control system thereof, it is easy to maintenance and operative, owing to existing centrifugal cylinder 5100 needs high speed rotating, so energy consumption is high, and coiler device of the present invention 5 has only to meet the speed of spinning roller, without other energy consumptions, so complete machine power is little.Owing to being provided with independent drying draw roll 404 between device for spinning 4, so strand is when spinning roller back segment is walked, can be through drying draw roll 404, now it is independently of spinning roller due to drying draw roll 404, so when drying strand, can effectively control to dry temperature and time, and the size drying draw roll 404 can be adjusted as required, the rotating speed drying draw roll 404 can also require to be adjusted according to actual production.

Embodiment 3

Spinning-drawing machine includes frame 1, glue feeder 2, strand shaped device 3, device for spinning 4 and coiler device 5, the shaped portion of described coiler device 5 opposite side that the outside of region is relative with spinning face 101 between frame 1 both sides wallboard 6, the moulding section of described coiler device 5 include coiler device 5 metal pipe 5203 or with the structure of 5203 phase same-actions of metal pipe；Described face 101 of spinning refers to outside frame 1 wallboard 6, is provided with the region of strand shaped device 3, the opposite side relative with described region is referred to as winding face 7, described device for spinning 4 includes that many spinning rollers, the two ends of described spinning roller are fixed, and described coiler device 5 includes that hygrometric state cake fills coiler device 51.Metal pipe 5203 shape of described coiler device 5 includes paralleling tube, conically shaped, Fructus Ananadis comosi cylinder or spindle cylinder.It is provided with independent drying draw roll 404 between multiple spinning rollers in described device for spinning 4.Coiler device 5 is positioned at the end face of spinning roller and is positioned at the outside of frame 1.Drying draw roll 404 and be positioned at the back segment region of spinning roller, described drying draw roll 404 is internal is cavity.Heater it is provided with in cavity.Frame 1 includes that at least two columns 1101, described wallboard 6 are separately mounted on column 1101.The rolled device of strand 5 is shaped to meet the cake dress silk of the hygrometric state directly applying to twisting machine package requirement.

Described heater can be water heating, electrical heating or other heating arrangements existing.

Embodiment 4

Spinning-drawing machine includes frame 1, glue feeder 2, strand shaped device 3, device for spinning 4 and coiler device 5, the shaped portion of described coiler device 5 opposite side that the outside of region is relative with spinning face 101 between frame 1 both sides wallboard 6, the moulding section of described coiler device 5 include coiler device 5 metal pipe 5203 or with the structure of 5203 phase same-actions of metal pipe；Described face 101 of spinning refers to outside frame 1 wallboard 6, is provided with the region of strand shaped device 3, the opposite side relative with described region is referred to as winding face 7, described device for spinning 4 includes many spinning rollers, the two ends of described spinning roller are fixed, described coiler device 5 includes hygrometric state wound packages coiler device 52, and metal pipe 5203 shape of described coiler device 5 includes paralleling tube, conically shaped, Fructus Ananadis comosi cylinder or spindle cylinder.It is provided with independent drying draw roll 404 between multiple spinning rollers in described device for spinning 4.Coiler device 5 is positioned at the end face of spinning roller and is positioned at the outside of frame 1.Drying draw roll 404 and be positioned at the back segment region of spinning roller, described drying draw roll 404 is internal is cavity.Heater it is provided with in cavity.Frame 1 includes that at least two columns 1101, described wallboard 6 are separately mounted on column 1101.The rolled device of strand 5 is shaped to meet the wound packages silk of the hygrometric state directly applying to twisting machine package requirement.

Described heater can be water heating, electrical heating or other heating arrangements existing.

Embodiment 5

Spinning-drawing machine includes frame 1, glue feeder 2, strand shaped device 3, device for spinning 4 and coiler device 5, the shaped portion of described coiler device 5 opposite side that the outside of region is relative with spinning face 101 between frame 1 both sides wallboard 6, the moulding section of described coiler device 5 include coiler device 5 metal pipe 5203 or with the structure of 5203 phase same-actions of metal pipe；Described face 101 of spinning refers to outside frame 1 wallboard 6, is provided with the region of strand shaped device 3, the opposite side relative with described region is referred to as winding face 7, described device for spinning 4 includes that many spinning rollers, the two ends of described spinning roller are fixed, and described coiler device 5 includes hygrometric state strand dress coiler device 53.Metal pipe 5203 shape of described coiler device 5 includes paralleling tube, conically shaped, Fructus Ananadis comosi cylinder or spindle cylinder.It is provided with independent drying draw roll 404 between multiple spinning rollers in described device for spinning 4.Coiler device 5 is positioned at the end face of spinning roller and is positioned at the outside of frame 1.Drying draw roll 404 and be positioned at the back segment region of spinning roller, described drying draw roll 404 is internal is cavity.Heater it is provided with in cavity.Frame 1 includes that at least two columns 1101, described wallboard 6 are separately mounted on column 1101.The rolled device of strand 5 is shaped to meet the strand dress silk of the hygrometric state directly applying to twisting machine package requirement.

Described heater can be water heating, electrical heating or other heating arrangements existing.

Embodiment 6

Spinning-drawing machine includes frame 1, glue feeder 2, strand shaped device 3, device for spinning 4 and coiler device 5, the shaped portion of described coiler device 5 opposite side that the outside of region is relative with spinning face 101 between frame 1 both sides wallboard 6, the moulding section of described coiler device 5 include coiler device 5 metal pipe 5203 or with the structure of 5203 phase same-actions of metal pipe；Described face 101 of spinning refers to outside frame 1 wallboard 6, is provided with the region of strand shaped device 3, the opposite side relative with described region is referred to as winding face 7, described device for spinning 4 includes many spinning rollers, the two ends of described spinning roller are fixed, and described coiler device 5 includes hygrometric state cake dress coiler device 51 and hygrometric state wound packages coiler device 52.Metal pipe 5203 shape of described coiler device 5 includes paralleling tube, conically shaped, Fructus Ananadis comosi cylinder or spindle cylinder.It is provided with independent drying draw roll 404 between multiple spinning rollers in described device for spinning 4.Coiler device 5 is positioned at the end face of spinning roller and is positioned at the outside of frame 1.Drying draw roll 404 and be positioned at the back segment region of spinning roller, described drying draw roll 404 is internal is cavity.Heater it is provided with in cavity.Frame 1 includes that at least two columns 1101, described wallboard 6 are separately mounted on column 1101.The rolled device of strand 5 is shaped to meet the cake dress silk of the hygrometric state directly applying to twisting machine package requirement and wound packages silk.

Described heater can be water heating, electrical heating or other heating arrangements existing.

Embodiment 7

Spinning-drawing machine includes frame 1, glue feeder 2, strand shaped device 3, device for spinning 4 and coiler device 5, the shaped portion of described coiler device 5 opposite side that the outside of region is relative with spinning face 101 between frame 1 both sides wallboard 6, the moulding section of described coiler device 5 include coiler device 5 metal pipe 5203 or with the structure of 5203 phase same-actions of metal pipe；Described face 101 of spinning refers to outside frame 1 wallboard 6, is provided with the region of strand shaped device 3, the opposite side relative with described region is referred to as winding face 7, described device for spinning 4 includes many spinning rollers, the two ends of described spinning roller are fixed, and described coiler device 5 includes hygrometric state cake dress coiler device 51 and hygrometric state strand dress coiler device 53.Metal pipe 5203 shape of described coiler device 5 includes paralleling tube, conically shaped, Fructus Ananadis comosi cylinder or spindle cylinder.It is provided with independent drying draw roll 404 between multiple spinning rollers in described device for spinning 4.Coiler device 5 is positioned at the end face of spinning roller and is positioned at the outside of frame 1.Drying draw roll 404 and be positioned at the back segment region of spinning roller, described drying draw roll 404 is internal is cavity.Heater it is provided with in cavity.Frame 1 includes that at least two columns 1101, described wallboard 6 are separately mounted on column 1101；The rolled device of strand 5 is shaped to meet the cake dress silk of the hygrometric state directly applying to twisting machine package requirement and strand dress silk.

Described heater can be water heating, electrical heating or other heating arrangements existing.

Embodiment 8

Spinning-drawing machine includes frame 1, glue feeder 2, strand shaped device 3, device for spinning 4 and coiler device 5, the shaped portion of described coiler device 5 opposite side that the outside of region is relative with spinning face 101 between frame 1 both sides wallboard 6, the moulding section of described coiler device 5 include coiler device 5 metal pipe 5203 or with the structure of 5203 phase same-actions of metal pipe；Described face 101 of spinning refers to outside frame 1 wallboard 6, is provided with the region of strand shaped device 3, the opposite side relative with described region is referred to as winding face 7, described device for spinning 4 includes many spinning rollers, the two ends of described spinning roller are fixed, and described coiler device 5 includes hygrometric state wound packages coiler device 52 and hygrometric state strand dress coiler device 53.Metal pipe 5203 shape of described coiler device 5 includes paralleling tube, conically shaped, Fructus Ananadis comosi cylinder or spindle cylinder.It is provided with independent drying draw roll 404 between multiple spinning rollers in described device for spinning 4.Coiler device 5 is positioned at the end face of spinning roller and is positioned at the outside of frame 1.Drying draw roll 404 and be positioned at the back segment region of spinning roller, described drying draw roll 404 is internal is cavity.Heater it is provided with in cavity.Frame 1 includes that at least two columns 1101, described wallboard 6 are separately mounted on column 1101.The rolled device of strand 5 is shaped to meet the wound packages silk of the hygrometric state directly applying to twisting machine package requirement and strand dress silk.

Described heater can be water heating, electrical heating or other heating arrangements existing.

Embodiment 9

Spinning-drawing machine includes frame 1, glue feeder 2, strand shaped device 3, device for spinning 4 and coiler device 5, the shaped portion of described coiler device 5 opposite side that the outside of region is relative with spinning face 101 between frame 1 both sides wallboard 6, the moulding section of described coiler device 5 include coiler device 5 metal pipe 5203 or with the structure of 5203 phase same-actions of metal pipe；Described face 101 of spinning refers to outside frame 1 wallboard 6, is provided with the region of strand shaped device 3, the opposite side relative with described region is referred to as winding face 7, described device for spinning 4 includes many spinning rollers, the two ends of described spinning roller are fixed, and described coiler device 5 includes hygrometric state cake dress coiler device 51, hygrometric state wound packages coiler device 52 and hygrometric state strand dress coiler device 53.Metal pipe 5203 shape of described coiler device 5 includes paralleling tube, conically shaped, Fructus Ananadis comosi cylinder or spindle cylinder.It is provided with independent drying draw roll 404 between multiple spinning rollers in described device for spinning 4.Coiler device 5 is positioned at the end face of spinning roller and is positioned at the outside of frame 1.Drying draw roll 404 and be positioned at the back segment region of spinning roller, described drying draw roll 404 is internal is cavity.Heater it is provided with in cavity.Frame 1 includes that at least two columns 1101, described wallboard 6 are separately mounted on column 1101.The rolled device of strand 5 is shaped to meet the cake dress silk of the hygrometric state directly applying to twisting machine package requirement, wound packages silk and strand dress silk.

Described heater can be water heating, electrical heating or other heating arrangements existing.

Embodiment 10

nullThrough glue supply、The strand obtained after strand molding and spinning process is through drying draw roll 404，Winding is completed again by coiler device 5，Obtain the strand of winding shaping particularly as follows: rayon spinning stock solution is through dosing pump control 201 flow processed，Through for sebific duct 202 glue supply，Spinning head 301 is entered again by filter 203，Strand is sprayed by the spinneret on spinning head 301，Strand enters in pipe coagulation forming after shaped device 303 or bath shaped device 302，The strand of molding runs to spinning roller，Strand is around spinning roller，The drawing-off in spinning process is completed under spinning roller rotates、Solidify and go acid，In described drawing-off、During solidifying and going acid，Strand is also washed through water washing device 41，Oil through oiling device 42，Again through drying draw roll 404，The strand obtained completes winding by coiler device 5 after drying draw roll 404 derivation，Obtain the strand of winding shaping.

Embodiment 11

On the basis of embodiment 10:

Described dosing pump 201 is that single pump of one-in-and-one-out, the double pump of one-in-and-two-out or one enter the pump having more.

The spinneret orifice diameter of described spinning head 301 is 0.05mm.

Described spinning head 301 in " one " font, fan-shaped or circular.

Described filter 203 is arranged between dosing pump 201 and spinning head 301.

In described pipe, shaped device 303 includes reaction cup 304, formed pipe 305 and filar guide 306；Described spinning head 301 and one end of formed pipe 305 are placed in reaction cup 304, and spinning head 301 is corresponding with formed pipe 305, and strand sprays into formed pipe 305, and filar guide 307 is positioned at formed pipe 305 other end.

Further:

In described pipe, the reaction cup 304 of shaped device 303 includes that cup 308 and dividing plate 307, described dividing plate 307 are positioned at cup 308, and at least one, described dividing plate 307, cup 308 is isolated at least two separate space by described dividing plate 307.

Described formed pipe 305 internal diameter Φ is 4mm, a length of 800mm.

Embodiment 12

On the basis of embodiment 10:

Described dosing pump 201 is that single pump of one-in-and-one-out, the double pump of one-in-and-two-out or one enter the pump having more.

The spinneret orifice diameter of described spinning head 301 is 0.10mm.

Described spinning head 301 in " one " font, fan-shaped or circular.

Described filter 203 is arranged between dosing pump 201 and spinning head 301.

In described pipe, shaped device 303 includes reaction cup 304, formed pipe 305 and filar guide 306；Described spinning head 301 and one end of formed pipe 305 are placed in reaction cup 304, and spinning head 301 is corresponding with formed pipe 305, and strand sprays into formed pipe 305, and filar guide 307 is positioned at formed pipe 305 other end.

Further:

In described pipe, the reaction cup 304 of shaped device 303 includes that cup 308 and dividing plate 307, described dividing plate 307 are positioned at cup 308, and at least one, described dividing plate 307, cup 308 is isolated at least two separate space by described dividing plate 307.

Described formed pipe 305 internal diameter Φ is 15mm, a length of 2000mm.

Embodiment 13

On the basis of embodiment 10:

Described dosing pump 201 is that single pump of one-in-and-one-out, the double pump of one-in-and-two-out or one enter the pump having more.

The spinneret orifice diameter of described spinning head 301 is 0.075mm.

Described spinning head 301 in " one " font, fan-shaped or circular.

Described filter 203 is arranged between dosing pump 201 and spinning head 301.

In described pipe, shaped device 303 includes reaction cup 304, formed pipe 305 and filar guide 306；Described spinning head 301 and one end of formed pipe 305 are placed in reaction cup 304, and spinning head 301 is corresponding with formed pipe 305, and strand sprays into formed pipe 305, and filar guide 307 is positioned at formed pipe 305 other end.

Further:

In described pipe, the reaction cup 304 of shaped device 303 includes that cup 308 and dividing plate 307, described dividing plate 307 are positioned at cup 308, and at least one, described dividing plate 307, cup 308 is isolated at least two separate space by described dividing plate 307.

Described formed pipe 305 internal diameter Φ is 9.5mm, a length of 1400mm.

Embodiment 14

The spinning roller stage casing of device for spinning 4 is provided above the water washing device 41 of the mode that sprays, spinning roller back segment is provided above with spray or the oiling device 42 of laminating type, described spinning roller and two columns 1101 are connected, and described spinning roller is rotated by spinning driven by motor.

Embodiment 15

The first structure of water washing device 41 is as follows: water washing device 41 includes the spray equipment being arranged between two spinning rollers, and it is provided with water inlet pipe outside frame 1, described water inlet pipe is connected with spray equipment, described spray equipment includes shower 4101 and mozzle 4103, described water inlet pipe communicates with shower 4101, described shower 4101 is provided with spray apertures or nozzle 4102, one end of described mozzle 4103 is fixed on shower 4101, and be connected with spray apertures or nozzle 4102, the other end is water side, described water side is positioned at the top of relatively low spinning roller, the water of spray apertures or nozzle 4102 ejection is directly sprayed on relatively low spinning roller by water side.By mozzle 4103 by clean the direct water conservancy diversion of water on relatively low spinning roller, one prevents rinse water splashes, it two makes rinse water form moisture film on relatively low spinning roller, and strand leaching is walked to embathe on the moisture film of relatively low spinning roller, thus improves cleaning performance.

For making rinse water preferably can form moisture film on lower spinning roller further, described water side is additionally provided with diversion screen 4104, the water of spray apertures or nozzle 4102 ejection sprays on relatively low spinning roller by water conservancy diversion 4104, and screen cloth 4105 bore dia of described diversion screen 4104 is 10mm.

Embodiment 16

The first structure of water washing device 41 is as follows: water washing device 41 includes the spray equipment being arranged between two spinning rollers, and it is provided with water inlet pipe outside frame 1, described water inlet pipe is connected with spray equipment, described spray equipment includes shower 4101 and mozzle 4103, described water inlet pipe communicates with shower 4101, described shower 4101 is provided with spray apertures or nozzle 4102, one end of described mozzle 4103 is fixed on shower 4101, and be connected with spray apertures or nozzle 4102, the other end is water side, described water side is positioned at the top of relatively low spinning roller, the water of spray apertures or nozzle 4102 ejection is directly sprayed on relatively low spinning roller by water side.By mozzle 4103 by clean the direct water conservancy diversion of water on relatively low spinning roller, one prevents rinse water splashes, it two makes rinse water form moisture film on relatively low spinning roller, strand leaching walk under relatively low spinning roller moisture film on embathe, thus improve cleaning performance.

For making rinse water preferably can form moisture film on relatively low spinning roller further, described water side is additionally provided with diversion screen 4104, the water of spray apertures or nozzle 4102 ejection sprays on relatively low spinning roller by diversion screen 4104, and screen cloth 4105 bore dia of described diversion screen 4104 is 5mm.

Embodiment 17

The first structure of water washing device 41 is as follows: water washing device 41 includes the spray equipment being arranged between two spinning rollers, and it is provided with water inlet pipe outside frame 1, described water inlet pipe is connected with spray equipment, described spray equipment includes shower 4101 and mozzle 4103, described water inlet pipe communicates with shower 4101, described shower 4101 is provided with spray apertures or nozzle 4102, one end of described mozzle 4103 is fixed on shower 4101, and be connected with spray apertures or nozzle 4102, the other end is water side, described water side is positioned at the top of relatively low spinning roller, the water of spray apertures or nozzle 4102 ejection is directly sprayed on relatively low spinning roller by water side.By mozzle 4103 by clean the direct water conservancy diversion of water on relatively low spinning roller, one prevents rinse water splashes, it two makes rinse water form moisture film on relatively low spinning roller, and strand leaching is walked to embathe on the moisture film of relatively low spinning roller, thus improves cleaning performance.

For making rinse water preferably can form moisture film on lower spinning roller further, described water side is additionally provided with diversion screen 4104, the water of spray apertures or nozzle 4102 ejection sprays on relatively low spinning roller by diversion screen 4104, and screen cloth 4105 bore dia of described diversion screen 4104 is 8mm.

Embodiment 18

Water washing device 41 the second structure is as follows: described water washing device 41 includes the spray equipment being arranged between two spinning rollers, it is provided with spray equipment between the spinning roller of described device for spinning 4, and it is provided with water inlet pipe in the outside of frame 1, described water inlet pipe is connected with spray equipment, described spray equipment includes shower 4101 and deflector 4106, described water inlet pipe communicates with shower 4101, described shower 4101 is provided with spray apertures or nozzle 4102, one end of described deflector 4106 is fixed on shower 4101, the other end of deflector 4106 is water side, described water side is positioned at the top of relatively low spinning roller, the water of described spray apertures or nozzle 4102 ejection is through deflector 4106, and directly sprayed on relatively low spinning roller by water side.The water of spray apertures or nozzle 4102 ejection is directly led on relatively low spinning roller by deflector 4106, the water of spray forms moisture film on relatively low spinning roller, then strand leaching is walked and is embathed on the relatively low spinning roller that its periphery forms moisture film, its cleaning performance more, avoids the water splashes cleaning strand simultaneously.

Further, it is provided with flow-stopping plate 4107 in the water side of described deflector 4106, described flow-stopping plate 4107 is provided with overflow seam 4108, clean water stitches 4108 jet flows on relatively low spinning roller by overflow, clean water is pooled together by flow-stopping plate 4107 and forms the bigger water yield, 4108 jet flows are stitched on relatively low spinning roller by overflow, compared with the rinse water of big yield by overflow seam 4108 formation like the same current of waterfall, spray is on relatively low spinning roller, moisture film on relatively low spinning roller is formed more uniform, improves the cleaning performance of strand.

Further, it is vertically provided with guiding gutter 4109 on described deflector 4106, described guiding gutter 4109 is vertically arranged, the water of described spray apertures or nozzle 4102 ejection imports flow-stopping plate 4107 by guiding gutter 4109, the water of spray apertures or nozzle 4102 ejection will not form diffusing on deflector 4106, and therefore rinse water is more easy to form uniform moisture film on lower spinning roller.

The width of described overflow seam 4108 is 10 millimeters.

Described deflector 4106 is 30 degree with the angle of described spinning roller place horizontal plane.

Embodiment 19

Water washing device 41 the second structure is as follows: described water washing device 41 includes the spray equipment being arranged between two spinning rollers, it is provided with spray equipment between the spinning roller of described device for spinning 4, and it is provided with water inlet pipe in the outside of frame 1, described water inlet pipe is connected with spray equipment, described spray equipment includes shower 4101 and deflector 4106, described water inlet pipe communicates with shower 4101, described shower 4101 is provided with spray apertures or nozzle 4102, one end of described deflector 4106 is fixed on shower 4101, the other end of deflector 4106 is water side, described water side is positioned at the top of relatively low spinning roller, the water of described spray apertures or nozzle 4102 ejection is through deflector 4106, and directly sprayed on relatively low spinning roller by water side.The water of spray apertures or nozzle 4102 ejection is directly led on relatively low spinning roller by deflector 4106, the water of spray forms moisture film on relatively low spinning roller, then strand leaching is walked and is embathed on the relatively low spinning roller that its periphery forms moisture film, its cleaning performance more, avoids the water splashes cleaning strand simultaneously.

Further, it is provided with flow-stopping plate 4107 in the water side of described deflector 4106, described flow-stopping plate 4107 is provided with overflow seam 4108, clean water stitches 4108 jet flows on relatively low spinning roller by overflow, clean water is pooled together by flow-stopping plate 4107 and forms the bigger water yield, 4108 jet flows are stitched on relatively low spinning roller by overflow, compared with the rinse water of big yield by overflow seam 4108 formation like the same current of waterfall, spray is on relatively low spinning roller, moisture film on relatively low spinning roller is formed more uniform, improves the cleaning performance of strand.

Further, it is vertically provided with guiding gutter 4109 on described deflector 4106, described guiding gutter 4109 is vertically arranged, the water of described spray apertures or nozzle 4102 ejection imports flow-stopping plate 4107 by guiding gutter 4109, the water of spray apertures or nozzle 4102 ejection will not form diffusing on deflector 4106, and therefore rinse water is more easy to form uniform moisture film on lower spinning roller.

The width of described overflow seam 4108 is 5 millimeters.

Described deflector 4106 is 60 degree with the angle of described spinning roller place horizontal plane.

Embodiment 20

Water washing device 41 the second structure is as follows: described water washing device 41 includes the spray equipment being arranged between two spinning rollers, it is provided with spray equipment between the spinning roller of described device for spinning 4, and it is provided with water inlet pipe in the outside of frame 1, described water inlet pipe is connected with spray equipment, described spray equipment includes shower 4101 and deflector 4106, described water inlet pipe communicates with shower 4101, described shower 4101 is provided with spray apertures or nozzle 4102, one end of described deflector 4106 is fixed on shower 4101, the other end of deflector 4106 is water side, described water side is positioned at the top of relatively low spinning roller, the water of described spray apertures or nozzle 4102 ejection is through deflector 4106, and directly sprayed on relatively low spinning roller by water side.The water of spray apertures or nozzle 4102 ejection is directly led on relatively low spinning roller by deflector 4106, the water of spray forms moisture film on relatively low spinning roller, then strand leaching is walked and is embathed on the relatively low spinning roller that its periphery forms moisture film, its cleaning performance more, avoids the water splashes cleaning strand simultaneously.

Further, it is provided with flow-stopping plate 4107 in the water side of described deflector 4106, described flow-stopping plate 4107 is provided with overflow seam 4108, clean water stitches 4108 jet flows on relatively low spinning roller by overflow, clean water is pooled together by flow-stopping plate 4107 and forms the bigger water yield, 4108 jet flows are stitched on relatively low spinning roller by overflow, compared with the rinse water of big yield by overflow seam 4108 formation like the same current of waterfall, spray is on relatively low spinning roller, moisture film on relatively low spinning roller is formed more uniform, improves the cleaning performance of strand.

Further, it is vertically provided with guiding gutter 4109 on described deflector 4106, described guiding gutter 4109 is vertically arranged, the water of described spray apertures or nozzle 4102 ejection imports flow-stopping plate 4107 by guiding gutter 4109, the water of spray apertures or nozzle 4102 ejection will not form diffusing on deflector 4106, and therefore rinse water is more easy to form uniform moisture film on lower spinning roller.

The width of described overflow seam 4108 is 7 millimeters.

Described deflector 4106 is 45 degree with the angle of described spinning roller place horizontal plane.

Embodiment 21

When spinning speed for 80m/min of described spinning-drawing machine, the spray flux of described water washing device 41 is 100ml/min；When spinning speed for 100m/min of described spinning-drawing machine, the spray flux of described water washing device 41 is 140ml/min；When spinning speed for 120m/min of described spinning-drawing machine, the spray flux of described water washing device 41 is 200ml/min.

The water that described water washing device 41 sprays out is vertical with described spinning roller, sprays a length of 100mm.

Embodiment 22

When spinning speed for 100m/min of described spinning-drawing machine, the spray flux of described water washing device 41 is 120ml/min；When spinning speed for 120m/min of described spinning-drawing machine, the spray flux of described water washing device 41 is 160ml/min；When spinning speed for 140m/min of described spinning-drawing machine, the spray flux of described water washing device 41 is 260ml/min.

The water that described water washing device 41 sprays out is vertical with described spinning roller, sprays a length of 500mm.

Embodiment 23

When spinning speed for 90m/min of described spinning-drawing machine, the spray flux of described water washing device 41 is 110ml/min；When spinning speed for 110m/min of described spinning-drawing machine, the spray flux of described water washing device 41 is 150ml/min；When spinning speed for 130m/min of described spinning-drawing machine, the spray flux of described water washing device 41 is 230ml/min.

The water that described water washing device 41 sprays out is vertical with described spinning roller, sprays a length of 300mm.

Embodiment 24

nullThe first structure of oiling device 42 is as follows: oiling device 42 is arranged in the frame 1 of high-speed spinning machine，Described oiling device 42 includes oil groove 4201、Godet 4202、Draw roll 4203、Oil tanker 4204 and sponge adsorbent equipment 4206，Be marked with in oil groove 4201 strand required on oil 4205，The both sides of the upper limb of described oil groove 4201 are respectively arranged with godet 4202 and draw roll 4203，Described oil tanker 4205 is arranged on the bottom of oil groove 4201，The medial wall of oil groove 4201 is provided with sponge adsorbent equipment 4206，Strand 4209 through godet 4202 import the bottom of oil groove 4201 walk around oil tanker 4204 and be immersed in bottom oil 4205 in，Again by sponge adsorbent equipment 4206 oil suction，Then draw through draw roll 4203 and enter next procedure，As coiler device 5 carry out the curled hair bar of next operation around.Oil and the removing oil of strand 4209 all complete in oil groove 4201, the i.e. bottom at oil groove 4201 fills the oil 4205 for oiling to strand, oil tanker 4204 is arranged on the bottom of oil groove 4201, strand 4209 is in godet 4202 imports the oil 4205 bottom oil groove 4201, and be pressed in oil 4205 by oil tanker 4204, complete to oil, because strand is completely submerged in oil, therefore strand oils full, uniform, improves the oil applying rate of strand 4209.The medial wall of oil groove 4201 is provided with sponge adsorbent equipment 4206 simultaneously, after strand 4209 oils, in godet 4202 and the effect of draw roll 4203, the strand 4209 oiled is through sponge adsorbent equipment 4206, oil more than strand 4209 rich surface is adsorbed and falls in oil groove 4201, prevent the greasy dirt dye working environment of on strand 4209, decrease the waste of oil simultaneously.

Further, being horizontally installed on the inwall of oil groove 4201 at described sponge adsorbent equipment 4206, sponge adsorbent equipment 4206 is vertically provided with through hole 4207, and strand 4209 is passed by described through hole 4207, which obviate the oil on strand 4209 and throw away oil groove 4201, pollute workbench and cause the waste of oil.

Further, said apparatus the most also includes oil wiper, described oil wiper is arranged on the bottom of sponge adsorbent equipment 4206, oil wiper be two cooperate scrape oil tanker 4208, strand 4209 is scraped oil tanker 4208 through two, remove unnecessary oil by sponge adsorbent equipment 4206 excessively again, improve oil applying rate and prevent the waste of oil.

Embodiment 25

Oiling device 42 the second structure is as follows: oiling device 42 includes oil tanker 4204, spray bar 4211, oil pump 4210, oil storage tank 4213 and sponge adsorbent equipment 4206, described spray bar 4211 is located at the top of oil tanker 4204, it is provided with for the nozzle opening 4212 to oil tanker 4204 oil spout on spray bar 4211, described oil storage tank 4213 is arranged on the lower section of oil tanker 4204, described spray bar 4211 is connected with oil storage tank 4213 by oil pump 4210, and described sponge adsorbent equipment 4206 is arranged on the sidewall of oil storage tank 4213.nullGodet 4202 and draw roll 4203 it is additionally provided with in described frame 1，Strand 4209 is under the driving of godet 4202，Walk around oil tanker 4204，Spray bar 4211 is sprayed by the nozzle opening 4212 being disposed thereon and is sprayed on oil tanker 4204 by oil，Oil 4205 forms oil film on oil tanker 4204，Strand 4209 leaching is walked in the oil film formed on oil tanker 4204，Therefore strand 4209 oils full、Uniformly，Thus improve the oil applying rate of strand，Strand 4209 after oiling adsorbs through sponge adsorbent equipment 4206 and strikes off the oil 4205 of its excess surface，These oil 4205 are all flowed in oil storage tank 4213 and collect，Oil 4205 in oil storage tank 4213 is constantly extracted in spray bar 4211 by oil pump 4210，By nozzle opening 4212, strand 4209 is oiled，Circulation work.Both the oil applying rate of strand 4209 had been greatly improved, and the excess oil on strand 4209 will not pollute work top, excess oil automatically falls in oil storage tank 4213, it is to avoid the waste of oil.

Further, described sponge adsorbent equipment 4206 is horizontally installed on the inwall of oil storage tank 4213, and sponge adsorbent equipment 4206 is vertically provided with through hole 4207, and strand 4209 is passed by described through hole 4207, avoid the oil on strand and throw away finishing bathtray, pollute workbench and cause the waste of oil.

Further, in order to make the excess oil on the strand after oiling to be eliminated, also include oil wiper, described oil wiper is arranged on the bottom of sponge adsorbent equipment 4206, described oil wiper be two cooperate scrape oil tanker 4208, strand is scraped oil tanker 4208 through two, it is then passed through sponge adsorbent equipment 4206, strand 4209 after oiling, first passes through two oil wipers scraping oil tanker 4208 composition and is removed the oil of strand 4206 excess surface, it is ensured that the adsorption effect of excess oil.

Embodiment 26

Described spinning-drawing machine spin speed when being 100 m/min, the oil preparation amount of described oiling device 42 is 5 ml/min；Described spinning-drawing machine spin speed when being 120 m/min, the oil preparation amount of described oiling device 42 is 5 ml/min；Described spinning-drawing machine spin speed when being 160 m/min, the oil preparation amount of described oiling device 42 is 5 ml/min.

Embodiment 27

Described spinning-drawing machine spin speed when being 100 m/min, the oil preparation amount of described oiling device 42 is 20 ml/min；Described spinning-drawing machine spin speed when being 120 m/min, the oil preparation amount of described oiling device 42 is 35 ml/min；Described spinning-drawing machine spin speed when being 160 m/min, the oil preparation amount of described oiling device 42 is 50 ml/min.

Embodiment 28

Described spinning-drawing machine spin speed when being 100 m/min, the oil preparation amount of described oiling device 42 is 12.5 ml/min；Described spinning-drawing machine spin speed when being 120 m/min, the oil preparation amount of described oiling device 42 is 20 ml/min；Described spinning-drawing machine spin speed when being 160 m/min, the oil preparation amount of described oiling device 42 is 27.5 ml/min.

Embodiment 29

Drip washing in different spinning speed and different cultivars spinning technique and oiling:

Embodiment 30

Being provided with guide wire apparatus on the column 1101 of side, winding face 7, described guide wire apparatus includes that filar guide support and filar guide, described filar guide are arranged on filar guide support one end, and the described filar guide support other end is connected with described column 1101.Strand from spinning roller out, by guide wire apparatus seal wire to coiler device 5.

Further:

During described strand is from spinning roller to guide wire apparatus, strand is 15 degree with the angle of horizontal plane.

During described strand is by guide wire apparatus seal wire to coiler device 5, strand is 30 degree with the angle of horizontal plane.

Embodiment 31

Being provided with guide wire apparatus on the column 1101 of side, winding face 7, described guide wire apparatus includes that filar guide support and filar guide, described filar guide are arranged on filar guide support one end, and the described filar guide support other end is connected with described column 1101.Strand from spinning roller out, by guide wire apparatus seal wire to coiler device 5.

Further:

During described strand is from spinning roller to guide wire apparatus, strand is 60 degree with the angle of horizontal plane.

During described strand is by guide wire apparatus seal wire to coiler device 5, strand is 90 degree with the angle of horizontal plane.

Embodiment 32

Being provided with guide wire apparatus on the column 1101 of side, winding face 7, described guide wire apparatus includes that filar guide support and filar guide, described filar guide are arranged on filar guide support one end, and the described filar guide support other end is connected with described column 1101.Strand from spinning roller out, by guide wire apparatus seal wire to coiler device 5.

Further:

During described strand is from spinning roller to guide wire apparatus, strand is 38 degree with the angle of horizontal plane.

During described strand is by guide wire apparatus seal wire to coiler device 5, strand is 60 degree with the angle of horizontal plane.

Embodiment 33

Described hygrometric state wound packages coiler device 52 includes actively hygrometric state coiler device or passive hygrometric state coiler device.

Described hygrometric state refers to that the moisture content of strand is at 30-200%, wherein when the moisture content of strand is 30-80%, can be directly used for twisting process, so hygrometric state wound packages coiler device 52, hygrometric state cake dress coiler device 51 or hygrometric state strand dress coiler device 53 in the application each mean the coiler device 5 being applicable to hygrometric state strand.

Embodiment 34

Actively hygrometric state coiler device concrete structure is as follows: actively hygrometric state coiler device includes winding stand 5201, support 5202 and metal pipe 5203, it is provided with support 5202 on described winding stand 5201, it is provided with metal pipe 5203 on described support 5202, described metal pipe 5203 is provided above transverse link 5204, described transverse link 5204 one end is provided with cross motor 5205, the traveller 5208 corresponding with metal pipe 5203 it is provided with on described transverse link 5204, described metal pipe 5203 one end is connected with electric rotating machine 5206, described transverse link 5204 two ends are respectively arranged with transverse strands 5207, described transverse strands 5207 is arranged on winding stand 5201.

Actively the metal pipe 5203 of hygrometric state coiler device is directly connected with electric rotating machine 5206, and such motor can be directed to metal pipe 5203 and be driven so that driving force when metal pipe 5203 rotates is higher；And there is transverse link 5204 owing to connecting on support 5202, transverse link 5204 connects cross motor 5205, so cross motor 5205 can drive support 5202 to do the transverse movement of left and right, the metal pipe 5203 of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe 5203 thus causes the situation of the strand skewness on metal pipe 5203, enables the strand on metal pipe 5203 to be uniformly distributed according to the shape of metal pipe 5203.

Embodiment 35

Actively hygrometric state coiler device concrete structure is as follows: actively hygrometric state coiler device includes winding stand 5201, support 5202 and metal pipe 5203, it is provided with support 5202 on described winding stand 5201, it is provided with metal pipe 5203 on described support 5202, described metal pipe 5203 is provided above transverse link 5204, described transverse link 5204 one end is provided with cross motor 5205, the traveller 5208 corresponding with metal pipe 5203 it is provided with on described transverse link 5204, described metal pipe 5203 one end is connected with electric rotating machine 5206, described transverse link 5204 two ends are respectively arranged with transverse strands 5207, described transverse strands 5207 is arranged on winding stand 5201.

Electric rotating machine 5206 is connected with main shaft 5209, and described metal pipe 5203 is socketed on main shaft 5209, and described main shaft 5209 one end is connected with support 5202 by bearing 5210.Metal pipe 5203 is multiple.Multiple metal pipes 5203 are socketed with same main shaft 5209.Multiple metal pipes 5203 are respectively sleeved on a main shaft 5209.

Strand is after the traveller 5208 on transverse link 5204 guides, it is wrapped on metal pipe 5203, owing to metal pipe 5203 is rotated by electric rotating machine 5206, so strand can be wound onto on metal pipe 5203 by continuous print, and owing to transverse link 5204 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling is at same position.

Actively the metal pipe 5203 of hygrometric state coiler device is directly connected with electric rotating machine 5206, and such motor can be directed to metal pipe 5203 and be driven so that driving force when metal pipe 5203 rotates is higher；And there is transverse link 5204 owing to connecting on support 5202, transverse link 5204 connects cross motor 5205, so cross motor 5205 can drive support 5202 to do the transverse movement of left and right, the metal pipe 5203 of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe 5203 thus causes the situation of the strand skewness on metal pipe 5203, enables the strand on metal pipe 5203 to be uniformly distributed according to the shape of metal pipe 5203.

Actively being provided with traveller 5208 on the transverse link 5204 of hygrometric state coiler device, strand can be transmitted direction and be adjusted by traveller 5208, and the strand after adjustment then can enter metal pipe 5203 from more preferable angle, facilitates follow-up winding.

Actively the metal pipe 5203 on hygrometric state coiler device can be one, can also be multiple, quantity can be adjusted according to actual production demand, when using multiple metal pipe 5203, multiple metal pipes 5203 can be socketed with a main shaft 5209 simultaneously, can also individually be socketed with a main shaft 5209 by each metal pipe 5203, thus can realize single transmission axle and control multiple metal pipe 5203 simultaneously, or single transmission axle controls the effect of single metal pipe 5203.

Embodiment 36

Passive hygrometric state coiler device includes single spindle passive coiler device.

Embodiment 37

Passive hygrometric state coiler device includes the three passive coiler devices of ingot.

Embodiment 38

Passive hygrometric state coiler device includes the passive coiler device of axis.

Embodiment 39

Passive hygrometric state coiler device includes single spindle passive coiler device and the passive coiler device of three ingots.

Embodiment 40

Passive hygrometric state coiler device includes single spindle passive coiler device and the passive coiler device of axis.

Embodiment 41

Passive hygrometric state coiler device includes the three passive coiler devices of ingot and the passive coiler device of axis.

Embodiment 42

Passive hygrometric state coiler device includes single spindle passive coiler device, the three passive coiler devices of ingot and the passive coiler device of axis.

Embodiment 43

The first structure of single spindle passive coiler device is specific as follows: single spindle passive coiler device includes winding stand 5201, neutralization chamber 5211, support 5202, take over a business 5212, groove drum 5213 and metal pipe 5203, a left side on described winding stand 5201, right both sides are provided with support 5202, described each support 5202 two ends are provided with 5212, described two take over a business to be provided with between 5212 metal pipe 5203, described respectively take over a business below 5212, to be provided with groove drum 5213, groove drum 5213 is fixed on winding stand 5201 by bearing block 5214, a described left side, it is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides, described each groove drum 5213 is individually connected with electric rotating machine 5206.

nullThe first structure of single spindle passive coiler device includes winding stand 5201、Neutralization chamber 5211、Support 5202、Take over a business 5212、Groove drum 5213 and metal pipe 5203，Left、It is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides，Metal pipe 5203 is driven rotation by the rotation of groove drum 5213，And groove drum 5213 is driven rotation by electric rotating machine 5206，Thus avoid electric rotating machine 5206 to be directly connected with metal pipe 5203，Thus cause metal pipe 5203 excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine 5206 power，Groove drum 5213 utilizes frictional force to drive metal pipe 5203 to rotate，Due to revolving force by groove drum 5213 transition once，So that the dynamics driving metal pipe 5203 to rotate is more steady，Rotating speed generation saltus step will not be made；Strand middle acid substance can be neutralized by neutralization chamber 5211 so that strand keeps faintly acid or keeps neutrality etc. according to demand, is conducive to the process of next step operation；And each groove drum 5213 is individually connected with an electric rotating machine 5206, so when multiple groove drums 5213 work together, electric rotating machine 5206 corresponding to each groove drum 5213 individually can be adjusted, to be suitable for different demands, also more easily each groove drum 5213 and corresponding metal pipe 5203 can individually be keeped in repair or change.

Embodiment 44

The first structure of single spindle passive coiler device is specific as follows: single spindle passive coiler device includes winding stand 5201, neutralization chamber 5211, support 5202, take over a business 5212, groove drum 5213 and metal pipe 5203, a left side on described winding stand 5201, right both sides are provided with support 5202, described each support 5202 two ends are provided with 5212, described two take over a business to be provided with between 5212 metal pipe 5203, described respectively take over a business below 5212, to be provided with groove drum 5213, groove drum 5213 is fixed on winding stand 5201 by bearing block 5214, a described left side, it is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides, described each groove drum 5213 is individually connected with electric rotating machine 5206.

Each support 5202 is all singly connected with cross motor 5205, and the support 5202 on left and right both sides is for being oppositely arranged, and neutralization chamber 5211 is positioned in the middle part of winding stand 5201, presets and ensure that strand is neutral or weakly alkaline oil preparation in neutralization chamber 5211, and described oil preparation is alkalescence.Electric rotating machine 5206 drives groove drum 5213 to rotate, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

Strand initially enters neutralization chamber 5211 after spinning roller lays out, after the neutralization of neutralization chamber 5211, first strand is wound on groove drum 5213 through guide wheel, groove drum 5213 rotates under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to support 5202 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

nullThe first structure of single spindle passive coiler device includes winding stand 5201、Neutralization chamber 5211、Support 5202、Take over a business 5212、Groove drum 5213 and metal pipe 5203，Left、It is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides，Metal pipe 5203 is driven rotation by the rotation of groove drum 5213，And groove drum 5213 is driven rotation by electric rotating machine 5206，Thus avoid electric rotating machine 5206 to be directly connected with metal pipe 5203，Thus cause metal pipe 5203 excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine 5206 power，Groove drum 5213 utilizes frictional force to drive metal pipe 5203 to rotate，Due to revolving force by groove drum 5213 transition once，So that the dynamics driving metal pipe 5203 to rotate is more steady，Rotating speed generation saltus step will not be made；Strand middle acid substance can be neutralized by neutralization chamber 5211 so that strand keeps faintly acid or keeps neutrality etc. according to demand, is conducive to the process of next step operation；And each groove drum 5213 is individually connected with an electric rotating machine 5206, so when multiple groove drums 5213 work together, electric rotating machine 5206 corresponding to each groove drum 5213 individually can be adjusted, to be suitable for different demands, also more easily each groove drum 5213 and corresponding metal pipe 5203 can individually be keeped in repair or change.

Connect on support 5202 and have transverse link 5204, transverse link 5204 connects cross motor 5205, so cross motor 5205 can drive support 5202 to do the transverse movement of left and right, the metal pipe 5203 of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe 5203 thus causes the situation of the strand skewness on metal pipe 5203, enables the strand on metal pipe 5203 to be uniformly distributed according to the shape of metal pipe 5203.

What left and right both sides were oppositely arranged support 5202, the distributed architecture of support 5202 can enable at least two group strands be wound in side simultaneously, and these two groups of strands can share a neutralization chamber 5211, also save space, the position shared by single spindle passive coiler device can be reduced to greatest extent, inside limited space, place more single spindle passive coiler device.

Embodiment 45

Single spindle passive coiler device the second concrete structure is as follows: single spindle passive coiler device includes winding stand 5201, support 5202, take over a business 5212, groove drum 5213 and metal pipe 5203, two row's supports 5202 it are provided with on described winding stand 5201, described each support 5202 two ends are provided with 5212, described two take over a business to be provided with between 5212 metal pipe 5203, it is provided with groove drum 5213 below described metal pipe 5203, groove drum 5213 is fixed on winding stand 5201 by bearing block 5214, on one row's support 5202 take over a business 5212 positions than on another row's support 5202 to take over a business 5212 positions high, described each groove drum 5213 is individually connected with electric rotating machine 5206.

nullThe second structure of single spindle passive coiler device includes winding stand 5201、Support 5202、Take over a business 5212、Groove drum 5213 and metal pipe 5203，On one row's support 5202 take over a business 5212 positions than on another row's support 5202 to take over a business 5212 positions high，Described each groove drum 5213 is individually connected with electric rotating machine 5206，Metal pipe 5203 is driven rotation by the rotation of groove drum 5213，And groove drum 5213 is driven rotation by electric rotating machine 5206，Thus avoid electric rotating machine 5206 to be directly connected with metal pipe 5203，Thus cause metal pipe 5203 excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine 5206 power，Groove drum 5213 utilizes frictional force to drive metal pipe 5203 to rotate，Due to revolving force by groove drum 5213 transition once，So that the dynamics driving metal pipe 5203 to rotate is more steady，Rotating speed generation saltus step will not be made；And two row's supports 5202 in single spindle passive coiler device exist difference in height, difference in height is advantageous in that when at least two group strands winding on the metal pipe 5203 of two groups respectively, mutually will not disturb；Each groove drum 5213 is individually connected with an electric rotating machine 5206, so when multiple groove drums 5213 work together, electric rotating machine 5206 corresponding to each groove drum 5213 individually can be adjusted, to be suitable for different demands, also more easily each groove drum 5213 and corresponding metal pipe 5203 can individually be keeped in repair or change.

Embodiment 46

Single spindle passive coiler device the second concrete structure is as follows: single spindle passive coiler device includes winding stand 5201, support 5202, take over a business 5212, groove drum 5213 and metal pipe 5203, two row's supports 5202 it are provided with on described winding stand 5201, described each support 5202 two ends are provided with 5212, described two take over a business to be provided with between 5212 metal pipe 5203, it is provided with groove drum 5213 below described metal pipe 5203, groove drum 5213 is fixed on winding stand 5201 by bearing block 5214, on one row's support 5202 take over a business 5212 positions than on another row's support 5202 to take over a business 5212 positions high, described each groove drum 5213 is individually connected with electric rotating machine 5206.

Each support 5202 is all singly connected with cross motor 5205.On two row's supports 5,202 two take over a business that the difference in height of 5212 is at least the shortest support 5202 take over a business the height of groove drum 5213 below 5212.The direction that two row's supports 5202 are put is identical.Electric rotating machine 5206 drives groove drum 5213 to rotate, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

First multi-filament bar is wound on the two emissions groove cylinders 5213 laying respectively at high and low position after spinning roller lays out, groove drum 5213 rotates under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to support 5202 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

nullThe second structure of single spindle passive coiler device includes winding stand 5201、Support 5202、Take over a business 5212、Groove drum 5213 and metal pipe 5203，On one row's support 5202 take over a business 5212 positions than on another row's support 5202 to take over a business 5212 positions high，Described each groove drum 5213 is individually connected with electric rotating machine 5206，Metal pipe 5203 is driven rotation by the rotation of groove drum 5213，And groove drum 5213 is driven rotation by electric rotating machine 5206，Thus avoid electric rotating machine 5206 to be directly connected with metal pipe 5203，Thus cause metal pipe 5203 excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine 5206 power，Groove drum 5213 utilizes frictional force to drive metal pipe 5203 to rotate，Due to revolving force by groove drum 5213 transition once，So that the dynamics driving metal pipe 5203 to rotate is more steady，Rotating speed generation saltus step will not be made；And two row's supports 5202 in single spindle passive coiler device exist difference in height, difference in height is advantageous in that when at least two group strands winding on the metal pipe 5203 of two groups respectively, mutually will not disturb；Each groove drum 5213 is individually connected with an electric rotating machine 5206, so when multiple groove drums 5213 work together, electric rotating machine 5206 corresponding to each groove drum 5213 individually can be adjusted, to be suitable for different demands, also more easily each groove drum 5213 and corresponding metal pipe 5203 can individually be keeped in repair or change.

Transverse link 5204 connects cross motor 5205, so cross motor 5205 can drive support 5202 to do the transverse movement of left and right, the metal pipe 5203 of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe 5203 thus causes the situation of the strand skewness on metal pipe 5203, enables the strand on metal pipe 5203 to be uniformly distributed according to the shape of metal pipe 5203.

On two row's supports 5,202 two take over a business that the difference in height of 5212 is at least the shortest support 5202 take over a business the height of groove drum 5213 below 5212, make the height that difference in height is whole support 5202 of row's support 5202 that shorter row's support 5202 is the lowest Yu higher, make strand when two rows wind, will not interact completely, and the placing direction of two row's supports 5202 is identical, so workman is when safeguarding metal pipe 5203 or groove drum 5213 or change and take out metal pipe 5203, all without the normal work of the parts having influence on other.

Embodiment 47

nullThree ingots passive coiler device concrete structure is as follows: the described three passive coiler devices of ingot include winding stand 5201、Support 5202、Groove drum 5213、Bearing block 5214、Connector 5215 and metal pipe 5203，Described groove drum 5213 quantity is three，Described three groove drums 5213 are linearly distributed，Described three groove drums 5213 are socketed in same rotary shaft 5216，Described metal pipe 5203 is three，It is positioned at above groove drum 5213，And position is corresponding with groove drum 5213，Three supports 5202 it are provided with on described winding stand 5201，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with described metal pipe 5203 between 5212，Described three supports 5202 are connected with same transverse link 5204，Transverse link 5204 is connected by connector 5215 with support 5202.

nullThe three passive coiler devices of ingot include winding stand 5201、Support 5202、Groove drum 5213、Bearing block 5214、Connector 5215 and metal pipe 5203，Described every three groove drums 5213 are connected with an electric rotating machine 5206，Metal pipe 5203 is driven rotation by the rotation of groove drum 5213，And groove drum 5213 is driven rotation by electric rotating machine 5206，Thus avoid electric rotating machine 5206 to be directly connected with metal pipe 5203，Thus cause metal pipe 5203 excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine 5206 power，Groove drum 5213 utilizes frictional force to drive metal pipe 5203 to rotate，Due to revolving force by groove drum 5213 transition once，So that the dynamics driving metal pipe 5203 to rotate is more steady，Rotating speed generation saltus step will not be made；Three groove drums 5213 are a ultimate unit and an electric rotating machine 5206 is connected, three groove drums 5213 realize synchronized rotation, thus drive corresponding metal pipe 5203 to do synchronized rotation, owing to the strand of spinning-drawing machine in most cases is all at least three strands, so three groove drums 5213 disclosure satisfy that production needs.

Embodiment 48

nullThree ingots passive coiler device concrete structure is as follows: the described three passive coiler devices of ingot include winding stand 5201、Support 5202、Groove drum 5213、Bearing block 5214、Connector 5215 and metal pipe 5203，Described groove drum 5213 quantity is three，Described three groove drums 5213 are linearly distributed，Described three groove drums 5213 are socketed in same rotary shaft 5216，Described metal pipe 5203 is three，It is positioned at above groove drum 5213，And position is corresponding with groove drum 5213，Three supports 5202 it are provided with on described winding stand 5201，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with described metal pipe 5203 between 5212，Described three supports 5202 are connected with same transverse link 5204，Transverse link 5204 is connected by connector 5215 with support 5202.

Connector 5215 is corresponding with the position of groove drum 5213, and transverse link 5204 connects cross motor 5205.Rotary shaft 5216 is connected with electric rotating machine 5206.Driven by motor groove drum 5213 rotates, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

nullFirst at least three strands are wound on same row after spinning roller lays out、And on the groove drum 5213 being rotated by same rotary shaft 5216，Groove drum 5213 rotates under the drive of electric rotating machine 5206，Strand is wound on metal pipe 5203 after the winding of groove drum 5213 again，During metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation，When strand coiling is after metal pipe 5203，Strand on groove drum 5213 and the strand friction on metal pipe 5203，Cause metal pipe 5203 can rotate along with groove drum 5213，And owing to transverse link 5204 is laterally moved by cross motor 5205 drive，So traverse motion can be done by continuous print during the winding of strand，So strand coiling can ceaselessly change in the position of metal pipe 5203，Avoid strand coiling at same position，Last strand coiling molding.

nullThe three passive coiler devices of ingot include winding stand 5201、Support 5202、Groove drum 5213、Bearing block 5214、Connector 5215 and metal pipe 5203，Described every three groove drums 5213 are connected with an electric rotating machine 5206，Metal pipe 5203 is driven rotation by the rotation of groove drum 5213，And groove drum 5213 is driven rotation by electric rotating machine 5206，Thus avoid electric rotating machine 5206 to be directly connected with metal pipe 5203，Thus cause metal pipe 5203 excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine 5206 power，Groove drum 5213 utilizes frictional force to drive metal pipe 5203 to rotate，Due to revolving force by groove drum 5213 transition once，So that the dynamics driving metal pipe 5203 to rotate is more steady，Rotating speed generation saltus step will not be made；Three groove drums 5213 are a ultimate unit and an electric rotating machine 5206 is connected, three groove drums 5213 realize synchronized rotation, thus drive corresponding metal pipe 5203 to do synchronized rotation, owing to the strand of spinning-drawing machine in most cases is all at least three strands, so three groove drums 5213 disclosure satisfy that production needs.

Connect on the support 5202 of the three passive coiler devices of ingot and have transverse link 5204, transverse link 5204 connects cross motor 5205, so cross motor 5205 can drive support 5202 to do the transverse movement of left and right, the metal pipe 5203 of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe 5203 thus causes the situation of the strand skewness on metal pipe 5203, enables the strand on metal pipe 5203 to be uniformly distributed according to the shape of metal pipe 5203.

Embodiment 49

nullAxis the first concrete structure of passive coiler device is as follows: the passive coiler device of axis includes winding stand 5201、Neutralization chamber 5211、Support 5202、Metal pipe 5203 and groove drum 5213，A left side on described winding stand 5201、Right both sides are provided with the support 5202 of more than three，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with between 5212 metal pipe 5203，It is provided with groove drum 5213 below described each metal pipe 5203，Each groove drum 5213 is other is provided with passive tooth 5217，The groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218，Driving tooth 5219 it is provided with below passive tooth 5217，Passive tooth 5217 engages with driving tooth 5219，Each driving tooth 5219 center of described homonymy is provided through same driving shaft 5220，A described left side、It is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides.

The first structure of the passive coiler device of axis includes winding stand 5201, neutralization chamber 5211, support 5202, metal pipe 5203 and groove drum 5213, each support 5202 two ends are provided with 5212, each groove drum 5213 is other is provided with passive tooth 5217, the groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218, driving tooth 5219 it is provided with below passive tooth 5217, passive tooth 5217 engages with driving tooth 5219, and each driving tooth 5219 center of described homonymy is provided through same driving shaft 5220；The plurality of groove drum 5213 is connected with an electric rotating machine 5206, metal pipe 5203 is driven rotation by the rotation of groove drum 5213, and groove drum 5213 is driven rotation by electric rotating machine 5206, thus avoid electric rotating machine 5206 to be directly connected with metal pipe 5203, thus cause metal pipe 5203 excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine 5206 power, groove drum 5213 utilizes frictional force to drive metal pipe 5203 to rotate, due to revolving force by groove drum 5213 transition once, so that the dynamics driving metal pipe 5203 to rotate is more steady, rotating speed generation saltus step will not be made；And the present invention uses the mode of gear engagement and carries out the transmission of power, the form i.e. using the engagement of driving tooth 5219 and passive tooth 5217 carries out the transmission of power, this structure makes power more stable when transmission, when rotary shaft 5216 is beated or during velocity jump, owing to using multi-gear engagement, it is possible to the negative effect that the unstable situation effectively eliminating these bursts is brought so that strand is more stable in winding process, uniform；Strand middle acid substance can be neutralized by neutralization chamber 5211 so that strand keeps faintly acid or keeps neutrality etc. according to demand, is conducive to the process of next step operation；And each groove drum 5213 is individually connected with an electric rotating machine 5206, so when multiple groove drums 5213 work together, electric rotating machine 5206 corresponding to each groove drum 5213 individually can be adjusted, to be suitable for different demands, also more easily each groove drum 5213 and corresponding metal pipe 5203 can individually be keeped in repair or change.

Embodiment 50

nullAxis the first concrete structure of passive coiler device is as follows: the passive coiler device of axis includes winding stand 5201、Neutralization chamber 5211、Support 5202、Metal pipe 5203 and groove drum 5213，A left side for described winding stand 5201、Right both sides are provided with the support 5202 of more than three，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with between 5212 metal pipe 5203，It is provided with groove drum 5213 below described each metal pipe 5203，Each groove drum 5213 is other is provided with passive tooth 5217，The groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218，Driving tooth 5219 it is provided with below passive tooth 5217，Passive tooth 5217 engages with driving tooth 5219，Each driving tooth 5219 center of described homonymy is provided through same driving shaft 5220，A described left side、It is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides.

The support 5202 on left and right both sides is for being oppositely arranged.Driving tooth 5219 is socketed on driving shaft 5220, and described driving shaft 5220 is connected with electric rotating machine 5206.Left and right both sides are respectively arranged with a transverse link 5204, and described transverse link 5204 is connected with support 5202, and described two transverse links 5204 are connected to a cross motor 5205.Neutralization chamber 5211 is positioned in the middle part of winding stand 5201.Presetting in neutralization chamber 5211 and ensure that strand is neutral or weakly alkaline oil preparation, described oil preparation is alkalescence.Electric rotating machine 5206 drive motor driving shaft 5220 rotates, driving shaft 5220 drives driving tooth 5219 to rotate, driving tooth 5219 drives passive tooth 5217 to rotate, passive tooth 5217 drives driven shaft 5218 to rotate, thus drive groove drum 5213 to rotate, metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

Strand initially enters neutralization chamber 5211 after spinning roller lays out, after the neutralization of neutralization chamber 5211, first strand is wound on groove drum 5213 through guide wheel, the drive mechanism that groove drum 5213 is taken turns by driving tooth 5219 and passive tooth 5217, rotate under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to transverse link 5204 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

The first structure of the passive coiler device of axis includes winding stand 5201, neutralization chamber 5211, support 5202, metal pipe 5203 and groove drum 5213, each support 5202 two ends are provided with 5212, each groove drum 5213 is other is provided with passive tooth 5217, the groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218, driving tooth 5219 it is provided with below passive tooth 5217, passive tooth 5217 engages with driving tooth 5219, and each driving tooth 5219 center of described homonymy is provided through same driving shaft 5220；The plurality of groove drum 5213 is connected with an electric rotating machine 5206, metal pipe 5203 is driven rotation by the rotation of groove drum 5213, and groove drum 5213 is driven rotation by electric rotating machine 5206, thus avoid electric rotating machine 5206 to be directly connected with metal pipe 5203, thus cause metal pipe 5203 excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine 5206 power, groove drum 5213 utilizes frictional force to drive metal pipe 5203 to rotate, due to revolving force by groove drum 5213 transition once, so that the dynamics driving metal pipe 5203 to rotate is more steady, rotating speed generation saltus step will not be made；And the present invention uses the mode of gear engagement and carries out the transmission of power, the form i.e. using the engagement of driving tooth 5219 and passive tooth 5217 carries out the transmission of power, this structure makes power more stable when transmission, when rotary shaft 5216 is beated or during velocity jump, owing to using multi-gear engagement, it is possible to the negative effect that the unstable situation effectively eliminating these bursts is brought so that strand is more stable in winding process, uniform；Strand middle acid substance can be neutralized by neutralization chamber 5211 so that strand keeps faintly acid or keeps neutrality etc. according to demand, is conducive to the process of next step operation；And each groove drum 5213 is individually connected with an electric rotating machine 5206, so when multiple groove drums 5213 work together, electric rotating machine 5206 corresponding to each groove drum 5213 individually can be adjusted, to be suitable for different demands, also more easily each groove drum 5213 and corresponding metal pipe 5203 can individually be keeped in repair or change.

Transverse link 5204 connects cross motor 5205, so cross motor 5205 can drive support 5202 to do the transverse movement of left and right, the metal pipe 5203 of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe 5203 thus causes the situation of the strand skewness on metal pipe 5203, enables the strand on metal pipe 5203 to be uniformly distributed according to the shape of metal pipe 5203.

The distributed architecture of support 5202 can enable at least two group strands be wound in side simultaneously, and these two groups of strands can share a neutralization chamber 5211, also save space, the position shared by single spindle passive coiler device can be reduced to greatest extent, inside limited space, place the passive coiler device of more axis.

Embodiment 51

nullAxis passive coiler device the second concrete structure is as follows: the passive coiler device of axis includes winding stand 5201、Support 5202、Metal pipe 5203 and groove drum 5213，Two row's supports 5202 it are provided with on described winding stand 5201，Each row's support 5202 at least includes the support 5202 of more than three，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with between 5212 metal pipe 5203，It is provided with groove drum 5213 below described each metal pipe 5203，Each groove drum 5213 is other is provided with passive tooth 5217，The groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218，Driving tooth 5219 it is provided with below passive tooth 5217，Passive tooth 5217 engages with driving tooth 5219，Described each driving tooth 5219 center with row is provided through same driving shaft 5220，Metal pipe 5203 position on described row's support 5202 is higher than metal pipe 5203 position on another row's support 5202.

The second structure of the passive coiler device of axis includes winding stand 5201, support 5202, metal pipe 5203 and groove drum 5213, each support 5202 two ends are provided with 5212, each groove drum 5213 is other is provided with passive tooth 5217, the groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218, driving tooth 5219 it is provided with below passive tooth 5217, passive tooth 5217 engages with driving tooth 5219, and each driving tooth 5219 center of described homonymy is provided through same driving shaft 5220；The plurality of groove drum 5213 is connected with an electric rotating machine 5206, metal pipe 5203 is driven rotation by the rotation of groove drum 5213, and groove drum 5213 is driven rotation by electric rotating machine 5206, thus avoid electric rotating machine 5206 to be directly connected with metal pipe 5203, thus cause metal pipe 5203 excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine 5206 power, groove drum 5213 utilizes frictional force to drive metal pipe 5203 to rotate, due to revolving force by groove drum 5213 transition once, so that the dynamics driving metal pipe 5203 to rotate is more steady, rotating speed generation saltus step will not be made；And the present invention uses the mode of gear engagement and carries out the transmission of power, the form i.e. using the engagement of driving tooth 5219 and passive tooth 5217 carries out the transmission of power, this structure makes power more stable when transmission, when rotary shaft 5216 is beated or during velocity jump, owing to using multi-gear engagement, it is possible to the negative effect that the unstable situation effectively eliminating these bursts is brought so that strand is more stable in winding process, uniform；And two row's supports 5202 in single spindle passive coiler device exist difference in height, difference in height is advantageous in that when at least two group strands winding on the metal pipe 5203 of two groups respectively, mutually will not disturb.

Embodiment 52

nullAxis passive coiler device the second concrete structure is as follows: the passive coiler device of axis includes winding stand 5201、Support 5202、Metal pipe 5203 and groove drum 5213，Two row's supports 5202 it are provided with on described winding stand 5201，Each row's support 5202 at least includes the support 5202 of more than three，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with between 5212 metal pipe 5203，It is provided with groove drum 5213 below described each metal pipe 5203，Each groove drum 5213 is other is provided with passive tooth 5217，The groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218，Driving tooth 5219 it is provided with below passive tooth 5217，Passive tooth 5217 engages with driving tooth 5219，Described each driving tooth 5219 center with row is provided through same driving shaft 5220，Metal pipe 5203 position on described row's support 5202 is higher than metal pipe 5203 position on another row's support 5202.

On two row's supports 5,202 two take over a business that the difference in height of 5212 is at least the shortest support 5202 take over a business the height of groove drum 5213 below 5212.The direction that two row's supports 5202 are put is identical.Driving tooth 5219 is socketed on driving shaft 5220, and described driving shaft 5220 is connected with electric rotating machine 5206.Two row's supports 5202 are connected with a transverse link 5204 respectively, and described two transverse links 5204 are connected to a cross motor 5205.Electric rotating machine 5206 drive motor driving shaft 5220 rotates, driving shaft 5220 drives driving tooth 5219 to rotate, driving tooth 5219 drives passive tooth 5217 to rotate, passive tooth 5217 drives driven shaft 5218 to rotate, thus drive groove drum 5213 to rotate, metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

First multi-filament bar is wound on the two emissions groove cylinders 5213 laying respectively at high and low position after spinning roller lays out, the drive mechanism that groove drum 5213 is taken turns by driving tooth 5219 and passive tooth 5217, rotate under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to support 5202 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

The second structure of the passive coiler device of axis includes winding stand 5201, support 5202, metal pipe 5203 and groove drum 5213, each support 5202 two ends are provided with 5212, each groove drum 5213 is other is provided with passive tooth 5217, the groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218, driving tooth 5219 it is provided with below passive tooth 5217, passive tooth 5217 engages with driving tooth 5219, and each driving tooth 5219 center of described homonymy is provided through same driving shaft 5220；The plurality of groove drum 5213 is connected with an electric rotating machine 5206, metal pipe 5203 is driven rotation by the rotation of groove drum 5213, and groove drum 5213 is driven rotation by electric rotating machine 5206, thus avoid electric rotating machine 5206 to be directly connected with metal pipe 5203, thus cause metal pipe 5203 excessive and produce the situation that rotary speed unstabilization is fixed due to electric rotating machine 5206 power, groove drum 5213 utilizes frictional force to drive metal pipe 5203 to rotate, due to revolving force by groove drum 5213 transition once, so that the dynamics driving metal pipe 5203 to rotate is more steady, rotating speed generation saltus step will not be made；And the present invention uses the mode of gear engagement and carries out the transmission of power, the form i.e. using the engagement of driving tooth 5219 and passive tooth 5217 carries out the transmission of power, this structure makes power more stable when transmission, when rotary shaft 5216 is beated or during velocity jump, owing to using multi-gear engagement, it is possible to the negative effect that the unstable situation effectively eliminating these bursts is brought so that strand is more stable in winding process, uniform；And two row's supports 5202 in single spindle passive coiler device exist difference in height, difference in height is advantageous in that when at least two group strands winding on the metal pipe 5203 of two groups respectively, mutually will not disturb.

Transverse link 5204 connects cross motor 5205, so cross motor 5205 can drive support 5202 to do the transverse movement of left and right, the metal pipe 5203 of transverse movement, it can be avoided that strand is deposited in the two ends of metal pipe 5203 thus causes the situation of the strand skewness on metal pipe 5203, enables the strand on metal pipe 5203 to be uniformly distributed according to the shape of metal pipe 5203.

On two row's supports 5,202 two take over a business that the difference in height of 5212 is at least the shortest support 5202 take over a business the height of groove drum 5213 below 5212, make the height that difference in height is whole support 5202 of row's support 5202 that shorter row's support 5202 is the lowest Yu higher, make strand when two rows wind, will not interact completely, and the placing direction of two row's supports 5202 is identical, so workman is when safeguarding metal pipe 5203 or groove drum 5213 or change and take out metal pipe 5203, all without the normal work of the parts having influence on other.

Embodiment 53

Air exhausting device, frame 1 surrounding is had to be provided with movable transparent protective window above frame 1.

Embodiment 54

It is as follows that hygrometric state cake dress coiler device 51 specifically talks structure: includes centrifugal cylinder 5100, bearing 5101 and bearing body 5102, described bearing body 5102 is positioned in a bearing 5101, also include labyrinth shell 5103 and centrifugal shaft 5104, described labyrinth shell 5103 is socketed on bearing body 5102, it is connected with labyrinth wharve 5105 on described labyrinth shell 5103, described labyrinth wharve 5105 and labyrinth shell 5103 form two-layer deep trench air gap, form pneumostop relatively high speed rotation.Described centrifugal shaft 5104 is monoblock type major axis, described centrifugal shaft 5104 through labyrinth shell 5103 and bearing body 5102, wharve 5105 top, described labyrinth is connected with centrifugal cylinder 5100, and wharve 5105 bottom, described labyrinth and labyrinth shell 5103 constitute multilamellar pneumostop structure.Described centrifugal shaft 5104 upper end is connected bottom centrifugal cylinder 5100.The monoblock type major axis simple in construction of the application, owing to it is integral design, so being hardly damaged, and monoblock type major axis is lightweight, can the most normally work.Owing to have employed single-shaft configuration, so the height of overall electricity ingot can be reduced.

Embodiment 55

Hygrometric state cake dress coiler device 51 includes centrifugal cylinder 5100、Prop up bearing 5101 and bearing body 5102, described bearing body 5102 is positioned in a bearing 5101, also include labyrinth shell 5103 and centrifugal shaft 5104, described labyrinth shell 5103 is socketed on bearing body 5102, it is connected with labyrinth wharve 5105 on described labyrinth shell 5103, described labyrinth wharve 5105 and labyrinth shell 5103 form two-layer deep trench air gap, form pneumostop relatively high speed rotation.Described centrifugal shaft 5104 is monoblock type major axis, described centrifugal shaft 5104 through labyrinth shell 5103 and bearing body 5102, and described centrifugal shaft 5104 upper end is connected bottom centrifugal cylinder 5100.Wharve 5105 top, described labyrinth is connected with centrifugal cylinder 5100, and wharve 5105 bottom, described labyrinth and labyrinth shell 5103 constitute multilamellar pneumostop structure.The monoblock type major axis simple in construction of the application, owing to it is integral design, so being hardly damaged, and monoblock type major axis is lightweight, can the most normally work.Described monoblock type major axis be connected above upper bearing (metal) 5106, described upper bearing (metal) 5106 is arranged between centrifugal shaft 5104 upper end and labyrinth wharve 5105 lower end, and is fixed in labyrinth shell 5103 upper end.The lower section of monoblock type major axis connects lower bearing 5107.Described lower bearing 5107 is arranged on centrifugal shaft 5104 lower end and is fixed in bearing body 5102.Being provided with damping 5108 at described lower bearing 5107, damping 5108 is flexible member, is provided with seal shock-proof circle and shock absorbing ring and cushion 5109 between described bearing 5101 and bearing body 5102.The bearing body 5102 of the application is provided with damping ring with a bearing 5101 and cushion blocking is connected, and easily splits.This structure makes the connection between electricity ingot and bracing frame connect for elasticity, the mechanical vibration produced when can fully eliminate electricity ingot operating and resonance, without substantially shaking head phenomenon when electricity ingot starts and brakes, operate steadily, vibrate little, start and braking is fast, can run up for a long time, and improve electricity ingot motor and the service life of bearing 5210.Shock absorbing ring and shock absorbing ring and cushion 5109 are that vertical and horizontal rise effective damping effect.O type O-ring seal 5110 it is provided with between labyrinth shell 5103 bottom and bearing body 5102.O type O-ring seal 5110 is two ironcastings---the connection propped up between bearing 5101 and bearing body 5102 seals.Achieve electricity ingot can realize acidity in wet condition and spin.

Motor is driven to specifically include one rotor being fixed on monoblock type major axis 5111 of electricity and a stator being fixed in labyrinth shell 5,103 5112.Stator 5112 includes that multiple unshakable in one's determination 5113 and winding 5114, described unshakable in one's determination 5113 embed windings 5114.

Embodiment 56

Hygrometric state strand dress coiler device 53 concrete structure is as follows: hygrometric state strand dress coiler device 53 includes strand dress motor 5301, friction pulley 5302, strand frame 5303, twisted axis 5304, traversing carriage 5305 and traversing connecting rod 5306, described strand dress motor 5301 is connected with friction pulley 5302 by rotary shaft 5307, friction pulley 5302 at least two, friction pulley 5302 is connected with twisted axis 5304, described traversing carriage 5305 is connected with traversing connecting rod 5306, described traversing connecting rod 5306 is positioned at above strand frame 5303, and described traversing connecting rod 5306 one end is connected with traversing motor 5308.

Hygrometric state strand dress coiler device 53 includes strand dress motor 5301, friction pulley 5302, strand frame 5303, twisted axis 5304, traversing carriage 5305 and traversing connecting rod 5306, friction pulley 5302 is utilized to transmit the power of strand dress motor 5301, the rotation making twisted axis 5304 and strand frame 5303 is more stable, and friction pulley 5302 is made up of the cylindrical friction wheel 5302 of two mutual compressions, when working properly, friction pulley 5302 can drive twisted axis 5304 turn round by the effect of frictional force, and makes the rotation ratio that transmission is kept essentially constant.Use friction pulley 5302 can make whole strand dress being simple to manufacture of coiler device 5, operate steadily, noise the least；Skid during overload, therefore damage parts important in machine can be prevented, the change gear ratio that energy is electrodeless.

Embodiment 57

Hygrometric state strand dress coiler device 53 concrete structure is as follows: hygrometric state strand dress coiler device 53 includes strand dress motor 5301, friction pulley 5302, strand frame 5303, twisted axis 5304, traversing carriage 5305 and traversing connecting rod 5306, described strand dress motor 5301 is connected with friction pulley 5302 by rotary shaft 5307, friction pulley 5302 at least two, friction pulley 5302 is connected with twisted axis 5304, described traversing carriage 5305 is connected with traversing connecting rod 5306, described traversing connecting rod 5306 is positioned at above strand frame 5303, and described traversing connecting rod 5306 one end is connected with traversing motor 5308.Strand frame 5303 twists frame 5303 for hexagon.Strand frame 5303 is socketed on twisted axis 5304, and one end of described twisted axis 5304 is provided with bearing 5309, and described bearing 5309 is arranged on strand dress support one end, and the described strand dress support other end is connected with the other end of twisted axis 5304 by bearing 5309.Seal wire hook 5310 it is provided with on described traversing carriage 5305.

Strand after spinning roller lays out through traversing carriage 5305 seal wire link up with 5310 guiding after, it is wound on the strand frame 5303 of rotation, strand frame 5303 is rotated by friction pulley 5302, and friction pulley 5302 is rotated by strand dress motor 5301, and owing to dynamic connecting rod is laterally moved by traversing motor 5308 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of strand frame 5303, it is to avoid strand coiling is at the same position of strand frame 5303.

Hygrometric state strand dress coiler device 53 includes strand dress motor 5301, friction pulley 5302, strand frame 5303, twisted axis 5304, traversing carriage 5305 and traversing connecting rod 5306, friction pulley 5302 is utilized to transmit the power of strand dress motor 5301, the rotation making twisted axis 5304 and strand frame 5303 is more stable, and friction pulley 5302 is made up of the cylindrical friction wheel 5302 of two mutual compressions, when working properly, friction pulley 5302 can drive twisted axis 5304 turn round by the effect of frictional force, and makes the rotation ratio that transmission is kept essentially constant.Use friction pulley 5302 can make whole strand dress being simple to manufacture of coiler device 5, operate steadily, noise the least；Skid during overload, therefore damage parts important in machine can be prevented, the change gear ratio that energy is electrodeless.

Strand coiling can be the hexagon of hygrometric state by hexagon strand frame 5303, and so strand after winding more closely, does not have loose situation so that follow-up transport, drying or the dyeing process of strand can preferably be carried out.Strand frame 5303 is socketed on twisted axis 5304, one end of twisted axis 5304 is provided with bearing 5309, bearing 5309 is arranged on strand dress support one end, the described strand dress support other end is connected with the other end of twisted axis 5304 by bearing 5309, twisted axis 5304 is by bearing 5309 and strand dress support, it is simple to the rotation of twisted axis 5304 is unaffected.

Embodiment 58

Passive hygrometric state coiler device includes single spindle passive coiler device and the passive coiler device of three ingots.

The first structure of single spindle passive coiler device is specific as follows: single spindle passive coiler device includes winding stand 5201, neutralization chamber 5211, support 5202, take over a business 5212, groove drum 5213 and metal pipe 5203, a left side on described winding stand 5201, right both sides are provided with support 5202, described each support 5202 two ends are provided with 5212, described two take over a business to be provided with between 5212 metal pipe 5203, described respectively take over a business below 5212, to be provided with groove drum 5213, groove drum 5213 is fixed on winding stand 5201 by bearing block 5214, a described left side, it is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides, described each groove drum 5213 is individually connected with electric rotating machine 5206.

Each support 5202 is all singly connected with cross motor 5205, and the support 5202 on left and right both sides is for being oppositely arranged, and neutralization chamber 5211 is positioned in the middle part of winding stand 5201, presets and ensure that strand is neutral or weakly alkaline oil preparation in neutralization chamber 5211, and described oil preparation is alkalescence.Electric rotating machine 5206 drives groove drum 5213 to rotate, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

Strand initially enters neutralization chamber 5211 after spinning roller lays out, after the neutralization of neutralization chamber 5211, first strand is wound on groove drum 5213 through guide wheel, groove drum 5213 rotates under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to support 5202 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

nullThree ingots passive coiler device concrete structure is as follows: the described three passive coiler devices of ingot include winding stand 5201、Support 5202、Groove drum 5213、Bearing block 5214、Connector 5215 and metal pipe 5203，Described groove drum 5213 quantity is three，Described three groove drums 5213 are linearly distributed，Described three groove drums 5213 are socketed in same rotary shaft 5216，Described metal pipe 5203 is three，It is positioned at above groove drum 5213，And position is corresponding with groove drum 5213，Three supports 5202 it are provided with on described winding stand 5201，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with described metal pipe 5203 between 5212，Described three supports 5202 are connected with same transverse link 5204，Transverse link 5204 is connected by connector 5215 with support 5202.

Connector 5215 is corresponding with the position of groove drum 5213, and transverse link 5204 connects cross motor 5205.Rotary shaft 5216 is connected with electric rotating machine 5206.Driven by motor groove drum 5213 rotates, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

Embodiment 59

Passive hygrometric state coiler device includes single spindle passive coiler device and the passive coiler device of three ingots.

Single spindle passive coiler device the second concrete structure is as follows: single spindle passive coiler device includes winding stand 5201, support 5202, take over a business 5212, groove drum 5213 and metal pipe 5203, two row's supports 5202 it are provided with on described winding stand 5201, described each support 5202 two ends are provided with 5212, described two take over a business to be provided with between 5212 metal pipe 5203, it is provided with groove drum 5213 below described metal pipe 5203, groove drum 5213 is fixed on winding stand 5201 by bearing block 5214, on one row's support 5202 take over a business 5212 positions than on another row's support 5202 to take over a business 5212 positions high, described each groove drum 5213 is individually connected with electric rotating machine 5206.

Each support 5202 is all singly connected with cross motor 5205.On two row's supports 5,202 two take over a business that the difference in height of 5212 is at least the shortest support 5202 take over a business the height of groove drum 5213 below 5212.The direction that two row's supports 5202 are put is identical.Electric rotating machine 5206 drives groove drum 5213 to rotate, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

nullThree ingots passive coiler device concrete structure is as follows: the described three passive coiler devices of ingot include winding stand 5201、Support 5202、Groove drum 5213、Bearing block 5214、Connector 5215 and metal pipe 5203，Described groove drum 5213 quantity is three，Described three groove drums 5213 are linearly distributed，Described three groove drums 5213 are socketed in same rotary shaft 5216，Described metal pipe 5203 is three，It is positioned at above groove drum 5213，And position is corresponding with groove drum 5213，Three supports 5202 it are provided with on described winding stand 5201，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with described metal pipe 5203 between 5212，Described three supports 5202 are connected with same transverse link 5204，Transverse link 5204 is connected by connector 5215 with support 5202.

Connector 5215 is corresponding with the position of groove drum 5213, and transverse link 5204 connects cross motor 5205.Rotary shaft 5216 is connected with electric rotating machine 5206.Driven by motor groove drum 5213 rotates, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

Embodiment 60

Passive hygrometric state coiler device includes single spindle passive coiler device and the passive coiler device of axis.

The first structure of single spindle passive coiler device is specific as follows: single spindle passive coiler device includes winding stand 5201, neutralization chamber 5211, support 5202, take over a business 5212, groove drum 5213 and metal pipe 5203, a left side on described winding stand 5201, right both sides are provided with support 5202, described each support 5202 two ends are provided with 5212, described two take over a business to be provided with between 5212 metal pipe 5203, described respectively take over a business below 5212, to be provided with groove drum 5213, groove drum 5213 is fixed on winding stand 5201 by bearing block 5214, a described left side, it is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides, described each groove drum 5213 is individually connected with electric rotating machine 5206.

Each support 5202 is all singly connected with cross motor 5205, and the support 5202 on left and right both sides is for being oppositely arranged, and neutralization chamber 5211 is positioned in the middle part of winding stand 5201, presets and ensure that strand is neutral or weakly alkaline oil preparation in neutralization chamber 5211, and described oil preparation is alkalescence.Electric rotating machine 5206 drives groove drum 5213 to rotate, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

Strand initially enters neutralization chamber 5211 after spinning roller lays out, after the neutralization of neutralization chamber 5211, first strand is wound on groove drum 5213 through guide wheel, groove drum 5213 rotates under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to support 5202 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

nullAxis the first concrete structure of passive coiler device is as follows: the passive coiler device of axis includes winding stand 5201、Neutralization chamber 5211、Support 5202、Metal pipe 5203 and groove drum 5213，A left side for described winding stand 5201、Right both sides are provided with the support 5202 of more than three，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with between 5212 metal pipe 5203，It is provided with groove drum 5213 below described each metal pipe 5203，Each groove drum 5213 is other is provided with passive tooth 5217，The groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218，Driving tooth 5219 it is provided with below passive tooth 5217，Passive tooth 5217 engages with driving tooth 5219，Each driving tooth 5219 center of described homonymy is provided through same driving shaft 5220，A described left side、It is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides.

The support 5202 on left and right both sides is for being oppositely arranged.Driving tooth 5219 is socketed on driving shaft 5220, and described driving shaft 5220 is connected with electric rotating machine 5206.Left and right both sides are respectively arranged with a transverse link 5204, and described transverse link 5204 is connected with support 5202, and described two transverse links 5204 are connected to a cross motor 5205.Neutralization chamber 5211 is positioned in the middle part of winding stand 5201.Presetting in neutralization chamber 5211 and ensure that strand is neutral or weakly alkaline oil preparation, described oil preparation is alkalescence.Electric rotating machine 5206 drive motor driving shaft 5220 rotates, driving shaft 5220 drives driving tooth 5219 to rotate, driving tooth 5219 drives passive tooth 5217 to rotate, passive tooth 5217 drives driven shaft 5218 to rotate, thus drive groove drum 5213 to rotate, metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

Strand initially enters neutralization chamber 5211 after spinning roller lays out, after the neutralization of neutralization chamber 5211, first strand is wound on groove drum 5213 through guide wheel, the drive mechanism that groove drum 5213 is taken turns by driving tooth 5219 and passive tooth 5217, rotate under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to transverse link 5204 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

Embodiment 61

Passive hygrometric state coiler device includes single spindle passive coiler device and the passive coiler device of axis.

The first structure of single spindle passive coiler device is specific as follows: single spindle passive coiler device includes winding stand 5201, neutralization chamber 5211, support 5202, take over a business 5212, groove drum 5213 and metal pipe 5203, a left side on described winding stand 5201, right both sides are provided with support 5202, described each support 5202 two ends are provided with 5212, described two take over a business to be provided with between 5212 metal pipe 5203, described respectively take over a business below 5212, to be provided with groove drum 5213, groove drum 5213 is fixed on winding stand 5201 by bearing block 5214, a described left side, it is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides, described each groove drum 5213 is individually connected with electric rotating machine 5206.

Each support 5202 is all singly connected with cross motor 5205, and the support 5202 on left and right both sides is for being oppositely arranged, and neutralization chamber 5211 is positioned in the middle part of winding stand 5201, presets and ensure that strand is neutral or weakly alkaline oil preparation in neutralization chamber 5211, and described oil preparation is alkalescence.Electric rotating machine 5206 drives groove drum 5213 to rotate, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

Strand initially enters neutralization chamber 5211 after spinning roller lays out, after the neutralization of neutralization chamber 5211, first strand is wound on groove drum 5213 through guide wheel, groove drum 5213 rotates under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to support 5202 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

nullAxis passive coiler device the second concrete structure is as follows: the passive coiler device of axis includes winding stand 5201、Support 5202、Metal pipe 5203 and groove drum 5213，Two row's supports 5202 it are provided with on described winding stand 5201，Each row's support 5202 at least includes the support 5202 of more than three，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with between 5212 metal pipe 5203，It is provided with groove drum 5213 below described each metal pipe 5203，Each groove drum 5213 is other is provided with passive tooth 5217，The groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218，Driving tooth 5219 it is provided with below passive tooth 5217，Passive tooth 5217 engages with driving tooth 5219，Described each driving tooth 5219 center with row is provided through same driving shaft 5220，Metal pipe 5203 position on described row's support 5202 is higher than metal pipe 5203 position on another row's support 5202.

On two row's supports 5,202 two take over a business that the difference in height of 5212 is at least the shortest support 5202 take over a business the height of groove drum 5213 below 5212.The direction that two row's supports 5202 are put is identical.Driving tooth 5219 is socketed on driving shaft 5220, and described driving shaft 5220 is connected with electric rotating machine 5206.Described two row's supports 5202 are connected with a transverse link 5204 respectively, described transverse link 5204 is connected with support 5202, and described two transverse links 5204 are connected to a cross motor 5205.Electric rotating machine 5206 drive motor driving shaft 5220 rotates, driving shaft 5220 drives driving tooth 5219 to rotate, driving tooth 5219 drives passive tooth 5217 to rotate, passive tooth 5217 drives driven shaft 5218 to rotate, thus drive groove drum 5213 to rotate, metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

First multi-filament bar is wound on the two emissions groove cylinders 5213 laying respectively at high and low position after spinning roller lays out, the drive mechanism that groove drum 5213 is taken turns by driving tooth 5219 and passive tooth 5217, rotate under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to support 5202 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

Embodiment 62

Passive hygrometric state coiler device includes single spindle passive coiler device and the passive coiler device of axis.

Single spindle passive coiler device the second concrete structure is as follows: single spindle passive coiler device includes winding stand 5201, support 5202, take over a business 5212, groove drum 5213 and metal pipe 5203, two row's supports 5202 it are provided with on described winding stand 5201, described each support 5202 two ends are provided with 5212, described two take over a business to be provided with between 5212 metal pipe 5203, it is provided with groove drum 5213 below described metal pipe 5203, groove drum 5213 is fixed on winding stand 5201 by bearing block 5214, on one row's support 5202 take over a business 5212 positions than on another row's support 5202 to take over a business 5212 positions high, described each groove drum 5213 is individually connected with electric rotating machine 5206.

Each support 5202 is all singly connected with cross motor 5205.On two row's supports 5,202 two take over a business that the difference in height of 5212 is at least the shortest support 5202 take over a business the height of groove drum 5213 below 5212.The direction that two row's supports 5202 are put is identical.Electric rotating machine 5206 drives groove drum 5213 to rotate, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

nullAxis the first concrete structure of passive coiler device is as follows: the passive coiler device of axis includes winding stand 5201、Neutralization chamber 5211、Support 5202、Metal pipe 5203 and groove drum 5213，A left side for described winding stand 5201、Right both sides are provided with the support 5202 of more than three，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with between 5212 metal pipe 5203，It is provided with groove drum 5213 below described each metal pipe 5203，Each groove drum 5213 is other is provided with passive tooth 5217，The groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218，Driving tooth 5219 it is provided with below passive tooth 5217，Passive tooth 5217 engages with driving tooth 5219，Each driving tooth 5219 center of described homonymy is provided through same driving shaft 5220，A described left side、It is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides.

The support 5202 on left and right both sides is for being oppositely arranged.Driving tooth 5219 is socketed on driving shaft 5220, and described driving shaft 5220 is connected with electric rotating machine 5206.Left and right both sides are respectively arranged with a transverse link 5204, and described transverse link 5204 is connected with support 5202, and described two transverse links 5204 are connected to a cross motor 5205.Neutralization chamber 5211 is positioned in the middle part of winding stand 5201.Presetting in neutralization chamber 5211 and ensure that strand is neutral or weakly alkaline oil preparation, described oil preparation is alkalescence.Electric rotating machine 5206 drive motor driving shaft 5220 rotates, driving shaft 5220 drives driving tooth 5219 to rotate, driving tooth 5219 drives passive tooth 5217 to rotate, passive tooth 5217 drives driven shaft 5218 to rotate, thus drive groove drum 5213 to rotate, metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

Strand initially enters neutralization chamber 5211 after spinning roller lays out, after the neutralization of neutralization chamber 5211, first strand is wound on groove drum 5213 through guide wheel, the drive mechanism that groove drum 5213 is taken turns by driving tooth 5219 and passive tooth 5217, rotate under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to transverse link 5204 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

Embodiment 63

Passive hygrometric state coiler device includes single spindle passive coiler device and the passive coiler device of axis.

Single spindle passive coiler device the second concrete structure is as follows: single spindle passive coiler device includes winding stand 5201, support 5202, take over a business 5212, groove drum 5213 and metal pipe 5203, two row's supports 5202 it are provided with on described winding stand 5201, described each support 5202 two ends are provided with 5212, described two take over a business to be provided with between 5212 metal pipe 5203, it is provided with groove drum 5213 below described metal pipe 5203, groove drum 5213 is fixed on winding stand 5201 by bearing block 5214, on one row's support 5202 take over a business 5212 positions than on another row's support 5202 to take over a business 5212 positions high, described each groove drum 5213 is individually connected with electric rotating machine 5206.

Each support 5202 is all singly connected with cross motor 5205.On two row's supports 5,202 two take over a business that the difference in height of 5212 is at least the shortest support 5202 take over a business the height of groove drum 5213 below 5212.The direction that two row's supports 5202 are put is identical.Electric rotating machine 5206 drives groove drum 5213 to rotate, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

nullAxis passive coiler device the second concrete structure is as follows: the passive coiler device of axis includes winding stand 5201、Support 5202、Metal pipe 5203 and groove drum 5213，Two row's supports 5202 it are provided with on described winding stand 5201，Each row's support 5202 at least includes the support 5202 of more than three，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with between 5212 metal pipe 5203，It is provided with groove drum 5213 below described each metal pipe 5203，Each groove drum 5213 is other is provided with passive tooth 5217，The groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218，Driving tooth 5219 it is provided with below passive tooth 5217，Passive tooth 5217 engages with driving tooth 5219，Described each driving tooth 5219 center with row is provided through same driving shaft 5220，Metal pipe 5203 position on described row's support 5202 is higher than metal pipe 5203 position on another row's support 5202.

On two row's supports 5,202 two take over a business that the difference in height of 5212 is at least the shortest support 5202 take over a business the height of groove drum 5213 below 5212.The direction that two row's supports 5202 are put is identical.Driving tooth 5219 is socketed on driving shaft 5220, and described driving shaft 5220 is connected with electric rotating machine 5206.Described two row's supports 5202 are connected with a transverse link 5204 respectively, described transverse link 5204 is connected with support 5202, and described two transverse links 5204 are connected to a cross motor 5205.Electric rotating machine 5206 drive motor driving shaft 5220 rotates, driving shaft 5220 drives driving tooth 5219 to rotate, driving tooth 5219 drives passive tooth 5217 to rotate, passive tooth 5217 drives driven shaft 5218 to rotate, thus drive groove drum 5213 to rotate, metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

First multi-filament bar is wound on the two emissions groove cylinders 5213 laying respectively at high and low position after spinning roller lays out, the drive mechanism that groove drum 5213 is taken turns by driving tooth 5219 and passive tooth 5217, rotate under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to support 5202 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

Embodiment 64

Passive hygrometric state coiler device includes the three passive coiler devices of ingot and the passive coiler device of axis.

nullThree ingots passive coiler device concrete structure is as follows: the described three passive coiler devices of ingot include winding stand 5201、Support 5202、Groove drum 5213、Bearing block 5214、Connector 5215 and metal pipe 5203，Described groove drum 5213 quantity is three，Described three groove drums 5213 are linearly distributed，Described three groove drums 5213 are socketed in same rotary shaft 5216，Described metal pipe 5203 is three，It is positioned at above groove drum 5213，And position is corresponding with groove drum 5213，Three supports 5202 it are provided with on described winding stand 5201，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with described metal pipe 5203 between 5212，Described three supports 5202 are connected with same transverse link 5204，Transverse link 5204 is connected by connector 5215 with support 5202.

Connector 5215 is corresponding with the position of groove drum 5213, and transverse link 5204 connects cross motor 5205.Rotary shaft 5216 is connected with electric rotating machine 5206.Driven by motor groove drum 5213 rotates, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

nullAxis the first concrete structure of passive coiler device is as follows: the passive coiler device of axis includes winding stand 5201、Neutralization chamber 5211、Support 5202、Metal pipe 5203 and groove drum 5213，A left side for described winding stand 5201、Right both sides are provided with the support 5202 of more than three，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with between 5212 metal pipe 5203，It is provided with groove drum 5213 below described each metal pipe 5203，Each groove drum 5213 is other is provided with passive tooth 5217，The groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218，Driving tooth 5219 it is provided with below passive tooth 5217，Passive tooth 5217 engages with driving tooth 5219，Each driving tooth 5219 center of described homonymy is provided through same driving shaft 5220，A described left side、It is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides.

The support 5202 on left and right both sides is for being oppositely arranged.Driving tooth 5219 is socketed on driving shaft 5220, and described driving shaft 5220 is connected with electric rotating machine 5206.Left and right both sides are respectively arranged with a transverse link 5204, and described transverse link 5204 is connected with support 5202, and described two transverse links 5204 are connected to a cross motor 5205.Neutralization chamber 5211 is positioned in the middle part of winding stand 5201.Presetting in neutralization chamber 5211 and ensure that strand is neutral or weakly alkaline oil preparation, described oil preparation is alkalescence.Electric rotating machine 5206 drive motor driving shaft 5220 rotates, driving shaft 5220 drives driving tooth 5219 to rotate, driving tooth 5219 drives passive tooth 5217 to rotate, passive tooth 5217 drives driven shaft 5218 to rotate, thus drive groove drum 5213 to rotate, metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

Strand initially enters neutralization chamber 5211 after spinning roller lays out, after the neutralization of neutralization chamber 5211, first strand is wound on groove drum 5213 through guide wheel, the drive mechanism that groove drum 5213 is taken turns by driving tooth 5219 and passive tooth 5217, rotate under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to transverse link 5204 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

Embodiment 65

Passive hygrometric state coiler device includes the three passive coiler devices of ingot and the passive coiler device of axis.

nullThree ingots passive coiler device concrete structure is as follows: the described three passive coiler devices of ingot include winding stand 5201、Support 5202、Groove drum 5213、Bearing block 5214、Connector 5215 and metal pipe 5203，Described groove drum 5213 quantity is three，Described three groove drums 5213 are linearly distributed，Described three groove drums 5213 are socketed in same rotary shaft 5216，Described metal pipe 5203 is three，It is positioned at above groove drum 5213，And position is corresponding with groove drum 5213，Three supports 5202 it are provided with on described winding stand 5201，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with described metal pipe 5203 between 5212，Described three supports 5202 are connected with same transverse link 5204，Transverse link 5204 is connected by connector 5215 with support 5202.

Connector 5215 is corresponding with the position of groove drum 5213, and transverse link 5204 connects cross motor 5205.Rotary shaft 5216 is connected with electric rotating machine 5206.Driven by motor groove drum 5213 rotates, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

nullAxis passive coiler device the second concrete structure is as follows: the passive coiler device of axis includes winding stand 5201、Support 5202、Metal pipe 5203 and groove drum 5213，Two row's supports 5202 it are provided with on described winding stand 5201，Each row's support 5202 at least includes the support 5202 of more than three，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with between 5212 metal pipe 5203，It is provided with groove drum 5213 below described each metal pipe 5203，Each groove drum 5213 is other is provided with passive tooth 5217，The groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218，Driving tooth 5219 it is provided with below passive tooth 5217，Passive tooth 5217 engages with driving tooth 5219，Described each driving tooth 5219 center with row is provided through same driving shaft 5220，Metal pipe 5203 position on described row's support 5202 is higher than metal pipe 5203 position on another row's support 5202.

On two row's supports 5,202 two take over a business that the difference in height of 5212 is at least the shortest support 5202 take over a business the height of groove drum 5213 below 5212.The direction that two row's supports 5202 are put is identical.Driving tooth 5219 is socketed on driving shaft 5220, and described driving shaft 5220 is connected with electric rotating machine 5206.Described two row's supports 5202 are connected with a transverse link 5204 respectively, described transverse link 5204 is connected with support 5202, and described two transverse links 5204 are connected to a cross motor 5205.Electric rotating machine 5206 drive motor driving shaft 5220 rotates, driving shaft 5220 drives driving tooth 5219 to rotate, driving tooth 5219 drives passive tooth 5217 to rotate, passive tooth 5217 drives driven shaft 5218 to rotate, thus drive groove drum 5213 to rotate, metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

First multi-filament bar is wound on the two emissions groove cylinders 5213 laying respectively at high and low position after spinning roller lays out, the drive mechanism that groove drum 5213 is taken turns by driving tooth 5219 and passive tooth 5217, rotate under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to support 5202 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

Embodiment 66

Passive hygrometric state coiler device includes single spindle passive coiler device, the three passive coiler devices of ingot and the passive coiler device of axis.

The first structure of single spindle passive coiler device is specific as follows: single spindle passive coiler device includes winding stand 5201, neutralization chamber 5211, support 5202, take over a business 5212, groove drum 5213 and metal pipe 5203, a left side on described winding stand 5201, right both sides are provided with support 5202, described each support 5202 two ends are provided with 5212, described two take over a business to be provided with between 5212 metal pipe 5203, described respectively take over a business below 5212, to be provided with groove drum 5213, groove drum 5213 is fixed on winding stand 5201 by bearing block 5214, a described left side, it is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides, described each groove drum 5213 is individually connected with electric rotating machine 5206.

Each support 5202 is all singly connected with cross motor 5205, and the support 5202 on left and right both sides is for being oppositely arranged, and neutralization chamber 5211 is positioned in the middle part of winding stand 5201, presets and ensure that strand is neutral or weakly alkaline oil preparation in neutralization chamber 5211, and described oil preparation is alkalescence.Electric rotating machine 5206 drives groove drum 5213 to rotate, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

Strand initially enters neutralization chamber 5211 after spinning roller lays out, after the neutralization of neutralization chamber 5211, first strand is wound on groove drum 5213 through guide wheel, groove drum 5213 rotates under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to support 5202 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

Single spindle passive coiler device the second concrete structure is as follows: single spindle passive coiler device includes winding stand 5201, support 5202, take over a business 5212, groove drum 5213 and metal pipe 5203, two row's supports 5202 it are provided with on described winding stand 5201, described each support 5202 two ends are provided with 5212, described two take over a business to be provided with between 5212 metal pipe 5203, it is provided with groove drum 5213 below described metal pipe 5203, groove drum 5213 is fixed on winding stand 5201 by bearing block 5214, on one row's support 5202 take over a business 5212 positions than on another row's support 5202 to take over a business 5212 positions high, described each groove drum 5213 is individually connected with electric rotating machine 5206.

Each support 5202 is all singly connected with cross motor 5205.On two row's supports 5,202 two take over a business that the difference in height of 5212 is at least the shortest support 5202 take over a business the height of groove drum 5213 below 5212.The direction that two row's supports 5202 are put is identical.Electric rotating machine 5206 drives groove drum 5213 to rotate, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

nullThree ingots passive coiler device concrete structure is as follows: the described three passive coiler devices of ingot include winding stand 5201、Support 5202、Groove drum 5213、Bearing block 5214、Connector 5215 and metal pipe 5203，Described groove drum 5213 quantity is three，Described three groove drums 5213 are linearly distributed，Described three groove drums 5213 are socketed in same rotary shaft 5216，Described metal pipe 5203 is three，It is positioned at above groove drum 5213，And position is corresponding with groove drum 5213，Three supports 5202 it are provided with on described winding stand 5201，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with described metal pipe 5203 between 5212，Described three supports 5202 are connected with same transverse link 5204，Transverse link 5204 is connected by connector 5215 with support 5202.

Connector 5215 is corresponding with the position of groove drum 5213, and transverse link 5204 connects cross motor 5205.Rotary shaft 5216 is connected with electric rotating machine 5206.Driven by motor groove drum 5213 rotates, and metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

nullAxis the first concrete structure of passive coiler device is as follows: the passive coiler device of axis includes winding stand 5201、Neutralization chamber 5211、Support 5202、Metal pipe 5203 and groove drum 5213，A left side for described winding stand 5201、Right both sides are provided with the support 5202 of more than three，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with between 5212 metal pipe 5203，It is provided with groove drum 5213 below described each metal pipe 5203，Each groove drum 5213 is other is provided with passive tooth 5217，The groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218，Driving tooth 5219 it is provided with below passive tooth 5217，Passive tooth 5217 engages with driving tooth 5219，Each driving tooth 5219 center of described homonymy is provided through same driving shaft 5220，A described left side、It is provided with neutralization chamber 5211 between the groove drum 5213 on right both sides.

The support 5202 on left and right both sides is for being oppositely arranged.Driving tooth 5219 is socketed on driving shaft 5220, and described driving shaft 5220 is connected with electric rotating machine 5206.Left and right both sides are respectively arranged with a transverse link 5204, and described transverse link 5204 is connected with support 5202, and described two transverse links 5204 are connected to a cross motor 5205.Neutralization chamber 5211 is positioned in the middle part of winding stand 5201.Presetting in neutralization chamber 5211 and ensure that strand is neutral or weakly alkaline oil preparation, described oil preparation is alkalescence.Electric rotating machine 5206 drive motor driving shaft 5220 rotates, driving shaft 5220 drives driving tooth 5219 to rotate, driving tooth 5219 drives passive tooth 5217 to rotate, passive tooth 5217 drives driven shaft 5218 to rotate, thus drive groove drum 5213 to rotate, metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

Strand initially enters neutralization chamber 5211 after spinning roller lays out, after the neutralization of neutralization chamber 5211, first strand is wound on groove drum 5213 through guide wheel, the drive mechanism that groove drum 5213 is taken turns by driving tooth 5219 and passive tooth 5217, rotate under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to transverse link 5204 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

nullAxis passive coiler device the second concrete structure is as follows: the passive coiler device of axis includes winding stand 5201、Support 5202、Metal pipe 5203 and groove drum 5213，Two row's supports 5202 it are provided with on described winding stand 5201，Each row's support 5202 at least includes the support 5202 of more than three，Described each support 5202 two ends are provided with 5212，Described two take over a business to be provided with between 5212 metal pipe 5203，It is provided with groove drum 5213 below described each metal pipe 5203，Each groove drum 5213 is other is provided with passive tooth 5217，The groove drum 5213 of described homonymy and passive tooth 5217 are arranged on same driven shaft 5218，Driving tooth 5219 it is provided with below passive tooth 5217，Passive tooth 5217 engages with driving tooth 5219，Described each driving tooth 5219 center with row is provided through same driving shaft 5220，Metal pipe 5203 position on described row's support 5202 is higher than metal pipe 5203 position on another row's support 5202.

On two row's supports 5,202 two take over a business that the difference in height of 5212 is at least the shortest support 5202 take over a business the height of groove drum 5213 below 5212.The direction that two row's supports 5202 are put is identical.Driving tooth 5219 is socketed on driving shaft 5220, and described driving shaft 5220 is connected with electric rotating machine 5206.Described two row's supports 5202 are connected with a transverse link 5204 respectively, described transverse link 5204 is connected with support 5202, and described two transverse links 5204 are connected to a cross motor 5205.Electric rotating machine 5206 drive motor driving shaft 5220 rotates, driving shaft 5220 drives driving tooth 5219 to rotate, driving tooth 5219 drives passive tooth 5217 to rotate, passive tooth 5217 drives driven shaft 5218 to rotate, thus drive groove drum 5213 to rotate, metal pipe 5203 and groove drum 5213 frictional rotation, strand is by the rotation of groove drum 5213 with metal pipe 5203, on strand coiling to metal pipe 5203.

First multi-filament bar is wound on the two emissions groove cylinders 5213 laying respectively at high and low position after spinning roller lays out, the drive mechanism that groove drum 5213 is taken turns by driving tooth 5219 and passive tooth 5217, rotate under the drive of electric rotating machine 5206, strand is wound on metal pipe 5203 after the winding of groove drum 5213 again, during metal pipe 5203 original state with groove drum 5213 outer surface friction and drive rotation, when strand coiling is after metal pipe 5203, strand on groove drum 5213 and the strand friction on metal pipe 5203, cause metal pipe 5203 can rotate along with groove drum 5213；And owing to support 5202 is laterally moved by cross motor 5205 drive, so traverse motion can be done by continuous print during the winding of strand, so strand coiling can ceaselessly change in the position of metal pipe 5203, it is to avoid strand coiling at same position, last strand coiling molding.

Claims (51)

1. null1. the spinning technique of a spinning-drawing machine，Including glue supply、Strand molding、Spinning and winding，Described glue supply is completed by glue feeder (2)，Described strand molding is completed by strand shaped device (3)，Described spinning is completed by device for spinning (4)，Described winding is completed by coiler device (5)，It is characterized in that: described device for spinning (4) includes many spinning rollers，The two ends of described spinning roller are fixed，It is provided with independent drying draw roll (404) between the described spinning roller in device for spinning (4)，The shaped portion of described coiler device (5) is positioned at the outside of region between frame (1) both sides wallboard (6)、The opposite side relative with spinning face (101)，Described face (101) of spinning refers in frame (1) wallboard (6) outside、It is provided with the region of strand shaped device (3)，With frame (1) wallboard (6) outside、The opposite side being provided with the region of strand shaped device (3) relative is referred to as the face of winding (7)；The strand obtained after glue supply, strand molding and spinning process is through drying draw roll (404), then completes winding by coiler device (5), obtains the strand of winding shaping；Described coiler device (5) is positioned at the end face of spinning roller and is positioned at the outside of frame (1)；It is provided with guide wire apparatus on the column (1101) of described winding face (7) side, described guide wire apparatus includes filar guide support and filar guide, described filar guide is arranged on filar guide support one end, and the described filar guide support other end is connected with described column (1101)；Strand from spinning roller out, by guide wire apparatus seal wire to coiler device (5).
2. The spinning technique of a kind of spinning-drawing machine the most according to claim 1, it is characterised in that: described drying draw roll (404) is positioned at the back segment region of spinning roller, and described drying draw roll (404) is internal is cavity.
3. The spinning technique of a kind of spinning-drawing machine the most according to claim 2, it is characterised in that: it is provided with heater in described cavity.
4. The spinning technique of a kind of spinning-drawing machine the most according to claim 1, it is characterised in that: described strand is configured to meet the strand dress silk of the cake dress silk of the wound packages silk of the hygrometric state directly applying to twisting machine package requirement and/or hygrometric state and/or hygrometric state through described coiler device (5).
5. The spinning technique of a kind of spinning-drawing machine the most according to claim 1, it is characterised in that: described frame (1) includes that at least two column (1101), described wallboard (6) are separately mounted on column (1101).
6. nullThe spinning technique of a kind of spinning-drawing machine the most according to claim 1，It is characterized in that: described through glue supply、The strand obtained after strand molding and spinning process is through drying draw roll (404)，Winding is completed again by coiler device (5)，Obtain the strand of winding shaping particularly as follows: rayon spinning stock solution controls flow through dosing pump (201)，Through for sebific duct (202) glue supply，Spinning head (301) is entered again by filter (203)，Strand is sprayed by the spinneret on spinning head (301)，Strand enters shaped device (303) or bath shaped device (302) coagulation forming afterwards in pipe，The strand of molding runs to spinning roller，Strand is around spinning roller，The drawing-off in spinning process is completed under spinning roller rotates、Solidify and go acid，In described drawing-off、During solidifying and going acid，Strand is also washed through water washing device (41)，Oil through oiling device (42)，Again through drying draw roll (404)，The strand obtained completes winding by coiler device (5) after drying draw roll (404) derivation，Obtain the strand of winding shaping.
7. The spinning technique of a kind of spinning-drawing machine the most according to claim 6, it is characterised in that: described dosing pump (201) is that single pump of one-in-and-one-out, the double pump of one-in-and-two-out or one enter the pump having more.
8. The spinning technique of a kind of spinning-drawing machine the most according to claim 6, it is characterised in that: the spinneret orifice diameter of described spinning head (301) is 0.05-0.10mm.
9. 9. according to the spinning technique of a kind of spinning-drawing machine described in claim 6 or 8, it is characterised in that: described spinning head (301) in " one " font, fan-shaped or circular.
10. The spinning technique of a kind of spinning-drawing machine the most according to claim 6, it is characterised in that: described filter (203) is arranged between dosing pump (201) and spinning head (301).
11. The spinning technique of 11. a kind of spinning-drawing machines according to claim 6, it is characterised in that: in described pipe, shaped device (303) includes reaction cup (304), formed pipe (305) and filar guide；Described spinning head (301) and one end of formed pipe (305) are placed in reaction cup (304), and spinning head (301) is corresponding with formed pipe (305), and strand sprays into formed pipe (305), and filar guide is positioned at formed pipe (305) other end.
12. The spinning technique of 12. a kind of spinning-drawing machines according to claim 11, it is characterized in that: in described pipe, the reaction cup (304) of shaped device (303) includes cup (308) and dividing plate (307), described dividing plate (307) is positioned at cup (308), at least one, described dividing plate (307), cup (308) is isolated at least two separate space by described dividing plate (307).
13. The spinning technique of 13. a kind of spinning-drawing machines according to claim 11, it is characterised in that: described formed pipe (305) internal diameter Φ is 4-15mm, a length of 800-2000mm.
14. The spinning technique of 14. a kind of spinning-drawing machines according to claim 1, it is characterized in that: the spinning roller stage casing of described device for spinning (4) is provided above spraying the water washing device (41) of mode, spinning roller back segment is provided above with spray or the oiling device (42) of laminating type, and described spinning roller is rotated by spinning driven by motor.
15. The spinning technique of 15. a kind of spinning-drawing machines according to claim 14, it is characterized in that: described water washing device (41) includes the spray equipment being arranged between two spinning rollers, and it is provided with water inlet pipe in frame (1) outside, described spray equipment includes shower (4101) and mozzle (4103), described shower (4101) is provided with spray apertures or nozzle (4102), one end of described mozzle (4103) is fixed on shower (4101), and be connected with spray apertures or nozzle (4102), the other end is water side, described water side is positioned at above relatively low spinning roller, the water that spray apertures or nozzle (4102) spray directly sprays on relatively low spinning roller.
16. The spinning technique of 16. a kind of spinning-drawing machines according to claim 15, it is characterized in that: described water side is additionally provided with diversion screen (4104), the water that spray apertures or nozzle (4102) spray is sprayed on relatively low spinning roller by diversion screen (4104), and screen cloth (4105) bore dia of described diversion screen (4104) is 5-10mm.
17. The spinning technique of 17. a kind of spinning-drawing machines according to claim 14, it is characterized in that: described water washing device (41) includes the spray equipment being arranged between two spinning rollers, described spray equipment includes shower (4101), described shower (4101) is provided with spray apertures or nozzle (4102), also include deflector (4106), one end of described deflector (4106) is fixed on shower (4101), the other end is water conservancy diversion end, described water conservancy diversion end is positioned at the top of relatively low spinning roller, the water that described spray apertures or nozzle (4102) spray is directly sprayed on relatively low spinning roller by deflector (4106).
18. The spinning technique of 18. a kind of spinning-drawing machines according to claim 17, it is characterised in that: described deflector (4106) is 30-60 degree with the angle of described spinning roller place horizontal plane.
19. The spinning technique of 19. a kind of spinning-drawing machines according to claim 17, it is characterized in that: the water side of described deflector is provided with flow-stopping plate (4107), described flow-stopping plate (4107) is provided with overflow seam (4108), clean water stitches (4108) jet flow on relatively low spinning roller by overflow, guiding gutter (4109) it is vertically provided with on described deflector, described guiding gutter (4109) is vertically arranged, the water that described spray apertures or nozzle (4102) spray imports flow-stopping plate (4107) by guiding gutter (4109), and the width of described overflow seam (4108) is 5-10mm.
20. The spinning technique of 20. a kind of spinning-drawing machines according to claim 14, it is characterised in that: described water washing device (41) spray water out is vertical with described spinning roller, sprays a length of 100-500mm.
21. nullThe spinning technique of 21. a kind of spinning-drawing machines according to claim 14，It is characterized in that: described oiling device (42) is arranged in the frame (1) of spinning-drawing machine，Described oiling device (42) includes oil groove (4201)，The both sides of the upper limb of described oil groove (4201) are respectively arranged with godet (4202) and draw roll (4203)，The described bottom in oil groove (4201) is provided with oil tanker (4204)，The medial wall of described oil groove (4201) is provided with sponge adsorbent equipment (4206)，Strand (4209) is in the oil (4205) that the bottom of godet (4202) importing oil groove (4201) is walked around oil tanker (4204) and is immersed in bottom，Again by sponge adsorbent equipment (4206) oil suction (4205)，Then draw through draw roll (4203) and enter next procedure.
22. nullThe spinning technique of 22. a kind of spinning-drawing machines according to claim 14，It is characterized in that: described oiling device (42) is arranged in the frame (1) of spinning-drawing machine，Described oiling device (42) includes oil tanker (4204)、Spray bar (4211)、Oil pump (4210)、Oil storage tank (4213) and sponge adsorbent equipment (4206)，Described spray bar (4211) is located at the top of oil tanker (4204)，It is provided with on spray bar (4211) for the nozzle opening (4212) of oil tanker (4204) oil spout (4205)，Described oil storage tank (4213) is arranged on the lower section of oil tanker (4204)，Described spray bar (4211) is connected with oil storage tank (4213) by oil pump (4210)，Described sponge adsorbent equipment (4206) is arranged on the sidewall of oil storage tank (4213).
23. 23. according to the spinning technique of a kind of spinning-drawing machine described in claim 21 or 22, it is characterized in that: described sponge adsorbent equipment (4206) is horizontally installed on the inwall of oil storage tank (4213), sponge adsorbent equipment (4206) is vertically provided with through hole (4207), and strand (4209) is passed by described through hole (4207).
24. 24. according to the spinning technique of a kind of spinning-drawing machine described in claim 21 or 22, it is characterized in that: described oiling device (42) also includes oil wiper, described oil wiper is arranged on the lower surface of sponge adsorbent equipment (4206), described oil wiper be two cooperate scrape oil tanker (4208).
25. The spinning technique of 25. a kind of spinning-drawing machines according to claim 14, it is characterised in that: the speed of spinning of described spinning-drawing machine is 100 During m/min, the oil preparation amount of described oiling device (42) is 5-20 ml/min；Described spinning-drawing machine spin speed when being 120 m/min, the oil preparation amount of described oiling device (42) is 5-35 ml/min；The speed of spinning of described spinning-drawing machine is 160 During m/min, the oil preparation amount of described oiling device (42) is 5-50 ml/min。
26. The spinning technique of 26. a kind of spinning-drawing machines according to claim 1, it is characterised in that: during described strand is from spinning roller to guide wire apparatus, strand is 15-60 degree with the angle of horizontal plane.
27. The spinning technique of 27. a kind of spinning-drawing machines according to claim 1, it is characterised in that: during described strand is by guide wire apparatus seal wire to coiler device (5), strand is 30-90 degree with the angle of horizontal plane.
28. The spinning technique of 28. a kind of spinning-drawing machines according to claim 1, it is characterised in that: described coiler device (5) includes hygrometric state cake dress coiler device (51) and/or hygrometric state wound packages coiler device (52) and/or hygrometric state strand dress coiler device (53).
29. The spinning technique of 29. a kind of spinning-drawing machines according to claim 28, it is characterised in that: metal pipe (5203) shape of described coiler device (5) includes paralleling tube, conically shaped, Fructus Ananadis comosi cylinder or spindle cylinder.
30. The spinning technique of 30. a kind of spinning-drawing machines according to claim 28, it is characterised in that: described hygrometric state wound packages coiler device (52) include actively hygrometric state coiler device or and passive hygrometric state coiler device.
31. nullThe spinning technique of 31. a kind of spinning-drawing machines according to claim 30，It is characterized in that: described active hygrometric state coiler device includes winding stand (5201)、Support (5202) and metal pipe (5203)，It is provided with support (5202) on described winding stand (5201)，It is provided with metal pipe (5203) on described support (5202)，Described metal pipe (5203) is provided above transverse link (5204)，Described transverse link (5204) one end is provided with cross motor (5205)，The traveller (5208) corresponding with metal pipe (5203) it is provided with on described transverse link (5204)，Described metal pipe (5203) one end is connected with electric rotating machine (5206)，Described transverse link (5204) two ends are respectively arranged with transverse strands (5207)，Described transverse strands (5207) is arranged on winding stand (5201).
32. The spinning technique of 32. a kind of spinning-drawing machines according to claim 31, it is characterized in that: described electric rotating machine (5206) is connected with main shaft (5209), described metal pipe (5203) is socketed on main shaft (5209), and described main shaft (5209) one end is connected with support (5202) by bearing (5210).
33. 33. according to the spinning technique of a kind of spinning-drawing machine described in claim 31 or 32, it is characterised in that: described metal pipe (5203) is multiple.
34. The spinning technique of 34. a kind of spinning-drawing machines according to claim 33, it is characterised in that: described multiple metal pipes (5203) are socketed with same main shaft (5209).
35. The spinning technique of 35. a kind of spinning-drawing machines according to claim 33, it is characterised in that: described multiple metal pipes (5203) are respectively sleeved on a main shaft (5209).
36. The spinning technique of 36. a kind of spinning-drawing machines according to claim 30, it is characterised in that: described passive hygrometric state coiler device includes single spindle passive coiler device, the three passive coiler devices of ingot and the passive coiler device of axis.
37. nullThe spinning technique of 37. a kind of spinning-drawing machines according to claim 36，It is characterized in that: described single spindle passive coiler device includes winding stand (5201)、Neutralization chamber (5211)、Support (5202)、Take over a business (5212)、Groove drum (5213) and metal pipe (5203)，The described left side on winding stand (5201)、Right both sides are provided with support (5202)，Described each support (5202) two ends are provided with (5212)，Take over a business to be provided with between (5212) metal pipe (5203) described in two，Described (5212) lower section of respectively taking over a business is provided with groove drum (5213)，Groove drum (5213) is fixed on winding stand (5201) by bearing block (5214)，A described left side、It is provided with neutralization chamber (5211) between the groove drum (5213) on right both sides，Each described groove drum (5213) is individually connected with electric rotating machine (5206).
38. 38. according to the spinning technique of a kind of spinning-drawing machine described in claim 37, it is characterized in that: described each support (5202) is all singly connected with cross motor (5205), the support (5202) on described left and right both sides is for being oppositely arranged, described neutralization chamber (5211) is positioned at winding stand (5201) middle part, presetting in described neutralization chamber (5211) and ensure that strand is neutral or weakly alkaline oil preparation, described oil preparation is alkalescence.
39. nullThe spinning technique of 39. a kind of spinning-drawing machines according to claim 36，It is characterized in that: described single spindle passive coiler device includes winding stand (5201)、Support (5202)、Take over a business (5212)、Groove drum (5213) and metal pipe (5203)，Two row's supports (5202) it are provided with on described winding stand (5201)，Each described support (5202) two ends are provided with (5212)，Take over a business to be provided with between (5212) metal pipe (5203) described in two，Described metal pipe (5203) lower section is provided with groove drum (5213)，Groove drum (5213) is fixed on winding stand (5201) by bearing block (5214)，On one row's support (5202) take over a business (5212) position than on another row support (5202) to take over a business (5212) position high，Each described groove drum (5213) is individually connected with electric rotating machine (5206).
40. 40. according to the spinning technique of a kind of spinning-drawing machine described in claim 39, it is characterized in that: described each support (5202) is all singly connected with cross motor (5205), support (5202) upper two described in two rows is taken over a business the difference in height of (5212) and is at least the height taking over a business (5212) lower section groove drum (5213) of the shortest support (5202), and the direction that the support (5202) described in two rows is put is identical.
41. nullThe spinning technique of 41. a kind of spinning-drawing machines according to claim 36，It is characterized in that: the three described passive coiler devices of ingot include winding stand (5201)、Support (5202)、Groove drum (5213)、Bearing block (5214)、Connector (5215) and metal pipe (5203)，Described groove drum (5213) quantity is three，Three described groove drums (5213) are linearly distributed，Three described groove drums (5213) are socketed in same rotary shaft (5216)，Described metal pipe (5203) is three，It is positioned at groove drum (5213) top，And position is corresponding with groove drum (5213)，Three supports (5202) it are provided with on described winding stand (5201)，Each described support (5202) two ends are provided with (5212)，Taking over a business described in two is provided with described metal pipe (5203) between (5212)，Three described supports (5202) are connected with same transverse link (5204)，Transverse link (5204) is connected by connector (5215) with support (5202).
42. The spinning technique of 42. a kind of spinning-drawing machines according to claim 41, it is characterized in that: described connector (5215) is corresponding with the position of groove drum (5213), described transverse link (5204) connects has cross motor (5205), described rotary shaft (5216) to be connected with electric rotating machine (5206).
43. nullThe spinning technique of 43. a kind of spinning-drawing machines according to claim 36，It is characterized in that: the passive coiler device of described axis includes winding stand (5201)、Neutralization chamber (5211)、Support (5202)、Metal pipe (5203) and groove drum (5213)，The described left side on winding stand (5201)、Right both sides are provided with the support (5202) of more than three，Described each support (5202) two ends are provided with (5212)，Take over a business to be provided with between (5212) metal pipe (5203) described in two，Described each metal pipe (5203) lower section is provided with groove drum (5213)，Each groove drum (5213) is other is provided with passive tooth (5217)，Groove drum (5213) and passive tooth (5217) described in homonymy are arranged on same driven shaft (5218)，Passive tooth (5217) lower section is provided with driving tooth (5219)，Passive tooth (5217) engages with driving tooth (5219)，Each driving tooth (5219) center of described homonymy is provided through same driving shaft (5220)，A described left side、It is provided with neutralization chamber (5211) between the groove drum (5213) on right both sides.
44. The spinning technique of 44. a kind of spinning-drawing machines according to claim 43, it is characterized in that: a described left side, the support (5202) on right both sides is for being oppositely arranged, described driving tooth (5219) is socketed on driving shaft (5220), described driving shaft (5220) is connected with electric rotating machine (5206), a described left side, right both sides are respectively arranged with a transverse link (5204), described transverse link (5204) is connected with support (5202), described two transverse links (5204) are connected to a cross motor (5205), described neutralization chamber (5211) is positioned at winding stand (5201) middle part, preset in described neutralization chamber (5211) and ensure that strand is neutral or weakly alkaline oil preparation, described oil preparation is alkalescence.
45. nullThe spinning technique of 45. a kind of spinning-drawing machines according to claim 36，It is characterized in that: the passive coiler device of described axis includes winding stand (5201)、Support (5202)、Metal pipe (5203) and groove drum (5213)，Two row's supports (5202) it are provided with on described winding stand (5201)，Respectively arrange the support (5202) that support (5202) at least includes more than three，Described each support (5202) two ends are provided with (5212)，Take over a business to be provided with between (5212) metal pipe (5203) described in two，Described each metal pipe (5203) lower section is provided with groove drum (5213)，Each groove drum (5213) is other is provided with passive tooth (5217)，Groove drum described in homonymy (5213) and passive tooth (5217) are arranged on same driven shaft (5218)，Passive tooth (5217) lower section is provided with driving tooth (5219)，Passive tooth (5217) engages with driving tooth (5219)，Described each driving tooth (5219) center with row is provided through same driving shaft (5220)，Metal pipe (5203) position on described row's support (5202) is higher than metal pipe (5203) position on another row's support (5202).
46. The spinning technique of 46. a kind of spinning-drawing machines according to claim 45, it is characterized in that: support (5202) upper two described in two rows is taken over a business the difference in height of (5212) and is at least the height taking over a business (5212) lower section groove drum (5213) of the shortest support (5202), the direction that support (5202) described in two rows is put is identical, described driving tooth (5219) is socketed on driving shaft (5220), described driving shaft (5220) is connected with electric rotating machine (5206), support (5202) described in two rows is connected with a transverse link (5204) respectively, described two transverse links (5204) are connected to a cross motor (5205).
47. nullThe spinning technique of 47. a kind of spinning-drawing machines according to claim 28，It is characterized in that: described hygrometric state cake dress coiler device (51) includes centrifugal cylinder (5100)、Prop up bearing (5101) and bearing body (5102)，Described bearing body (5102) is positioned in a bearing (5101)，Also include labyrinth shell (5103) and centrifugal shaft (5104)，Described labyrinth shell (5103) is socketed on bearing body (5102)，Labyrinth wharve (5105) it is connected with on described labyrinth shell (5103)，Described centrifugal shaft (5104) is monoblock type major axis，Described centrifugal shaft (5104) through labyrinth shell (5103) and bearing body (5102)，Wharve (5105) top, described labyrinth is connected with centrifugal cylinder (5100)，Wharve (5105) bottom, described labyrinth constitutes multilamellar pneumostop structure with labyrinth shell (5103)，Described centrifugal shaft (5104) upper end is connected with centrifugal cylinder (5100) bottom.
48. The spinning technique of 48. a kind of spinning-drawing machines according to claim 47, it is characterized in that: described monoblock type major axis be connected above upper bearing (metal) (5106), the lower section of monoblock type major axis connects lower bearing (5107), described upper bearing (metal) (5106) is arranged between centrifugal shaft (5104) upper end and labyrinth wharve (5105) lower end, and is fixed in labyrinth shell (5103) upper end；nullIn described lower bearing (5107) is arranged on centrifugal shaft (5104) lower end and is fixed on bearing body (5102)，Described lower bearing (5107) place is provided with damping (5108)，Shock absorbing ring and cushion (5109) it is provided with between described bearing (5101) and bearing body (5102)，It is provided with O type O-ring seal (5110) between shell (5103) bottom, described labyrinth and bearing body (5102)，Also include driving motor，Described driving motor specifically includes a rotor being fixed on monoblock type major axis (5111) and a stator (5112) being fixed in labyrinth shell (5103)，Described stator (5112) includes multiple iron core (5113) and winding (5114)，Described iron core (5113) embeds winding (5114).
49. nullThe spinning technique of 49. a kind of spinning-drawing machines according to claim 28，It is characterized in that: described hygrometric state strand dress coiler device (53) includes strand dress motor (5301)、Friction pulley (5302)、Strand frame (5303)、Twisted axis (5304)、Traversing carriage (5305) and traversing connecting rod (5306)，Described strand dress motor (5301) is connected with friction pulley (5302) by rotary shaft (5307)，Friction pulley (5302) at least two，Friction pulley (5302) is connected with twisted axis (5304)，Described traversing carriage (5305) is connected with traversing connecting rod (5306)，Described traversing connecting rod (5306) is positioned at strand frame (5303) top，Described traversing connecting rod (5306) one end is connected with traversing motor (5308).
50. The spinning technique of 50. a kind of spinning-drawing machines according to claim 49, it is characterized in that: described strand frame (5303) is hexagon strand frame (5303), described strand frame (5303) is socketed on twisted axis (5304), one end of described twisted axis (5304) is provided with bearing (5309), described bearing (5309) is arranged on strand dress support one end, the described strand dress support other end is connected with the other end of twisted axis (5304) by bearing (5309), and described traversing carriage (5305) is provided with seal wire hook (5310).
51. The spinning technique of 51. a kind of spinning-drawing machines according to claim 1, it is characterised in that: described frame (1) top has air exhausting device, frame (1) surrounding to be provided with movable transparent protective window.