CN103261497A

CN103261497A - Textile machine

Info

Publication number: CN103261497A
Application number: CN201180061090XA
Authority: CN
Inventors: 平尾修; 竹内秀年
Original assignee: Murata Machinery Ltd
Current assignee: Murata Machinery Ltd
Priority date: 2010-12-20
Filing date: 2011-10-26
Publication date: 2013-08-21
Anticipated expiration: 2031-10-26
Also published as: JP2012132112A; EP2657381B1; EP2657381A1; CN103261497B; WO2012086113A1; EP2657381A4

Abstract

A spinning machine (textile machine) comprises: spinning units; secondary ducts (32); secondary blowers (31); filter members (33); discharge ports (62); a concentration duct (36); and a concentration blower. The secondary ducts (32) are arranged with intervals of a predetermined number of spinning units, and wastes to be removed (81) are blown through the secondary ducts (32). The secondary blowers (31) generate suction flow (82) in the secondary ducts (32). The suction flow (82) partially passes through the filter members (33). The discharge ports (62) discharge the suction flow (82), which passes through the filter members (33). The concentration duct (36) is connected to the secondary duct (32), and suction flow (82) that has not passed through the filter members (33) and the wastes to be removed (81) flow through the concentration duct (36). The concentration blower generates airflow (83) in the concentration duct (36). The flow rate of the suction flow (82) discharged from one of the discharge ports (62) is higher than that of the suction flow (82) flowing through the concentration duct (36).

Description

Fibre machinery

Technical field

The present invention relates to fibre machinery.Relate to the structure that the flyings that produce and yarn bits etc. are removed in detail in fibre machinery.

Background technology

Generally in fibre machinery, can produce (removing material) such as flyings and yarn bits in routine ground.This removes material to suppose placement, then can be attached to cause quality to reduce on the product, and cause the bad of fibre machinery itself.Therefore, in fibre machinery, all the time, knownly a kind ofly attract stream and attract the formation of removing to removing material in suitable position effect.Patent documentation 1 discloses the fibre machinery with this formation.

The fibre machinery of patent documentation 1 constitutes and makes a plurality of weavings unit (spindle) along a direction assortment.Each unit of weaving has: to the flyings attraction portion that material attracts of removing of generations such as textile apparatus; Attraction path from this flyings attraction portion extension.And the attraction path of specified quantity constitutes in the mode at interflow in interflow pipeline (secondary duct).Fibre machinery has: produce the air blast (secondary air blast) that attracts stream in the downstream of this interflow pipeline, make remove material and attract flow point from the flyings separating mechanism.And the remove material separated by the flyings separating mechanism is transported to the continuous case of collection etc. by flyings conveying mechanism (for example, being configured in the interior fan of blower conduits (localized ducting) (concentrating air blast)).In addition, in patent documentation 1, disclose the formation that has adopted centrifugal separating device and adopted flyings to adhere to the formation of filter (filter component) as the flyings separating mechanism.

Centrifugal separating device is for the device to removing material and attracting stream to carry out centrifugation.The remove material separated by this centrifugal separating device is trapped in the continuous chamber of collection that centrifugal separating device has.Collect the bottom of continuous chamber by open this, centrifugal separating device can make the material of removing of delay fall to blower conduits etc. by gravity.In addition, disclose in the patent documentation 1 to replace making by gravity and removed the formation that material moves, and the air that utilizes fan to produce in blower conduits etc. flows from collecting continuous chamber to removing the formation that material attracts.On the other hand, by the separated attraction stream of centrifugal separating device, it is all discharged to the outside or it is all emitted in blower conduits.Under attracting to flow by the situation of emitting in blower conduits, this attraction stream is used to remove the conveying of material.

On the other hand, adhering to filter as the flyings of flyings separating mechanism is to make to attract stream by making the filter of removing the formation that material can't pass through.Flyings adhere to filter deployment at the interflow pipeline and produce between the air blast (secondary air blast) that attracts stream.Constitute by this, fibre machinery can make to be removed material and is attached to the surface that flyings adhere to filter.Be attached to the material of removing that flyings adhere on the filter and be sent to above-mentioned blower conduits etc.

The prior art document

Patent documentation

Patent documentation 1: TOHKEMY 2009-97109 communique

The summary of invention

The problem that the invention desire solves

But, using as the flyings separating mechanism under the situation of centrifugal separating device, for the formation that separated attraction stream is all discharged to the outside, because this attraction stream does not carry out the conveying of removing material (or it is auxiliary) in the blower conduits, so the fan in the blower conduits needs high output.On the other hand, the flow that constitutes the fan attraction that may cause in the blower conduits or the air of sending that separated attraction stream is all emitted in the blower conduits and this attraction stream is removed the conveying of material becomes excessive.Therefore, even separated attraction stream is all discharged to the outside or all emitted, also may cause maximization and expensiveization of fan and blower conduits in blower conduits.

In addition, centrifugal separating device and filter etc. are compared, and device size is big, and constitute complicated.Therefore, in the formation of using centrifugal separator, may cause fibre machinery to maximize and expensiveization.

On the other hand, using flyings to adhere under the situation of filter as the flyings separating mechanism, can produce following problem.Namely, in patent documentation 1, only stop at and disclose the thought that to use flyings to adhere to filter as the flyings separating mechanism, be transported to the intensity, path etc. that the method for blower conduits etc. and flyings adhere near the attraction stream the filter and all not have to disclose about being attached to the material of removing that flyings adhere on the filter.Therefore, existence can't suitably be transported to blower conduits etc., remove material and continue to be trapped in flyings and adhere to possibility on the filter being attached to the material of removing that flyings adhere on the filter.Under this situation, owing to cause the part of the attraction of air blast to be blocked because removing material, so existence can't fully attract the situation of removing material by generations such as textile apparatus.

In addition, in patent documentation 1, there is not open action of adhering to the separated attraction stream of filter by flyings.Suppose with similarly above-mentioned, might cause maximization and expensiveization of fan and blower conduits similarly emitting under the situation that attracts stream with the situation of utilizing centrifugal separating device.

Summary of the invention

The present invention is the invention of making in view of above situation, and its main purpose is to provide a kind of fibre machinery that can remove flyings and yarn bits etc. with the formation of compactness.

Solve means and the effect of problem

The problem that desire of the present invention solves describes means and the effect thereof that solves this problem as previously discussed below.

According to viewpoint of the present invention, provide the fibre machinery of following formation.That is, this fibre machinery has: winder unit, secondary duct, secondary air blast, filter component, discharge portion, localized ducting, concentrated air blast.Described secondary duct disposes, supplies the flow of matter of removing of this winder unit generation by the described winder unit of every specified quantity.Described secondary air blast is used in and attracts the described attraction stream of removing material to produce in described secondary duct.Described filter component is configured in the described secondary duct, and the part of described attraction stream is passed through.Described discharge portion will be discharged by the described attraction stream of described filter component.Described localized ducting is connected in described secondary duct, supplies not flow and the described flow of matter of removing by the described attraction of described filter component.Described concentrated air blast is used in describedly to be removed the air stream that material moves and produces in described localized ducting.The flow of the described attraction stream that the flow-rate ratio that flows from the described attraction of described discharge portion discharge flows from described secondary duct to described localized ducting is big.

Fibre machinery thus, flows in large quantities from secondary duct to localized ducting owing to prevent the attraction stream that is produced by secondary air blast, so can suppress to concentrate air blast to attract or the flow of the air sent.In addition, the fibre machinery utilization is to the attraction stream that localized ducting flows, and can make to remove material and move to localized ducting (or move auxiliary).Therefore, can suppress to concentrate air blast to attract or the flow of the air sent.By more than, can make concentrated air blast and the localized ducting that fibre machinery has become compact.In addition, fibre machinery is the formation of utilizing filter component to make to attract stream and removing separating substances, so, compare with the formation of utilizing centrifugal separator etc. to separate, can suppress device size compact.

In the described fibre machinery, preferably, described filter component be configured in described secondary duct and described localized ducting the coupling part near.

Thus, near the coupling part of secondary duct and localized ducting (part in the downstream of secondary duct), attract stream to be divided into localized ducting side and discharge portion side.Therefore, flow to the downstream of filter component if remove material, then the air of concentrating air blast to produce fails to be convened for lack of a quorum and acts on this immediately and remove on the material.Therefore, fibre machinery can be applied flexibly the attraction stream that secondary air blast produces effectively and makes and remove material and move.

In the described fibre machinery, preferably, the length direction of described secondary duct is parallel with the length direction of described localized ducting.

Thus, owing to secondary duct and localized ducting can be disposed compactly, so, can realize the further miniaturization of fibre machinery.

In the described fibre machinery, preferably become following formation.That is, described secondary duct disposes in the described identical mode of moving direction of removing material with described localized ducting.Described filter component is in the described moving direction of removing material, along with the downstream to described secondary duct advances and to dispose obliquely near the mode of the described localized ducting length direction with respect to described localized ducting.

Thus, fibre machinery can make and remove material to move to localized ducting along filter component with respect to the mode that the length direction of localized ducting rolls sideling.Therefore, can make and remove material and be difficult to be stranded on the filter component.

In the described fibre machinery, preferably, described secondary duct in the flow direction of the described attraction stream in this secondary duct, constitutes in the flow path cross sectional area mode littler than the flow path cross sectional area of the upstream side of described filter component in the downstream of described filter component.

Thus, even attract the part of stream to be discharged from via filter component and discharge portion, the flow velocity of the attraction stream in the secondary duct also is difficult to descend.Therefore, can make and remove material and powerfully move to localized ducting.

In the described fibre machinery, preferably, have control part, at least one side in the intensity of the described attraction stream that this control part produces described secondary air blast and the intensity of the described air stream that described concentrated air blast produces controls.

Thus, fibre machinery is controlled the intensity that attracts stream or air stream by control part, thus, can adjust near the mobile of air of filter component.Therefore, can prevent that removing parts is trapped on the filter component, so, the maintenance man-hours of filter component can be reduced.

In the described fibre machinery, preferably, described filter component constitutes netted, and to remove material thin than described for the mesh of this filter component.

Thus, fibre machinery can make accurately with simple formation and attract stream and remove separating substances.

In the described fibre machinery, preferably become following formation.That is, fibre machinery has two described secondary duct at least.As with the size of the peristome of the coupling part of the close described secondary duct of described concentrated air blast and described localized ducting, be that the size of peristome forms for a short time than the size away from the coupling part of the described secondary duct of described concentrated air blast and described localized ducting.

Thus, fibre machinery can suppress according to the situation that the intensity that the air with respect to each secondary duct is flowed apart from the distance of concentrating air blast becomes inhomogeneous.That is, be difficult to reduce with respect to being positioned at the intensity that flows apart from the air of the secondary duct of concentrating air blast position far away.

In the described fibre machinery, preferably, have breaking member between described secondary air blast and described filter component, this breaking member can the described attraction stream of temporary interruption from described secondary duct to described discharge portion.

Thus, by breaking member the attraction stream from secondary duct to discharge portion is carried out temporary interruption, thus, the material of removing that is stranded in filter component breaks away from from this filter component, and is recycled to localized ducting easily.Therefore, can reduce the maintenance man-hours of filter component.

In the described fibre machinery, preferably become following formation.That is, described winder unit has: drafting system, textile apparatus, coiler device.Described drafting system carries out drawing-off to sliver.Thereby described textile apparatus applies twisted generation textile yarn to the sliver by described drafting system drawing-off.Described coiler device will be wound into package by the described textile yarn that described textile apparatus generates.

Thus, above-mentioned effect can realize in weaving loom.

In the described fibre machinery, preferably become following formation.That is, described winder unit has: yarn feeder, coiler device.Described yarn feeder is supplied with textile yarn.Described coiler device is wound into package with described textile yarn.

Thus, above-mentioned effect can realize in Yarn winding apparatus.

Description of drawings

Fig. 1 is the front view of the weaving loom of an embodiment of the invention.

Fig. 2 is the longitudinal section of weaving loom.

Fig. 3 is that the expression flyings are removed the vertical view cutaway drawing of the formation of portion.

Fig. 4 is the figure of action of the breaking member that has of the flyings portion of removing of expression first variation.

Fig. 5 is that the flyings of expression second variation are removed the vertical view cutaway drawing of the formation of portion.

Fig. 6 be the flyings of expression the 3rd variation formation of removing portion overlook cutaway view Amplified image.

Fig. 7 is the front view of the automatic bobbin winder of the 4th variation.

The specific embodiment

Below, describe with reference to the spinning frame (fibre machinery) of accompanying drawing to an embodiment of the invention.In addition, when the integral body formation to spinning frame described, " upstream " reached upstream and the downstream of the moving direction of " downstream " yarn when referring to weave.Fig. 1 is the front view of formation of the integral body of expression spinning frame 1, and Fig. 2 is the longitudinal section of spinning frame 1.

Spinning frame 1 as Yarn winding apparatus shown in Figure 1 has also a plurality of weavings unit (winder unit) 2 of row arrangement.This spinning frame 1 has as main composition: connect yarn chassis 3, air blast cabinet 4, prime mover case 5.

As shown in Figure 1, each weave unit 2 as drafting system 7, textile apparatus 9, flyings that main composition has from the upstream downstream configuration in the following sequence remove portion 30, yarn holds and stays device 12, coiler device 13.Drafting system 7 is located near the upper end of the frame 6 that spinning frame 1 has.Weaved by textile apparatus 9 from the fibre bundle 8 that this drafting system 7 is sent here.The textile yarn 10 that is sent from textile apparatus 9 also holds by yarn and stays device 12 by behind the yarn yarn clearer 52 described later.And textile yarn 10 is wound onto on the spool 48 by coiler device 13, forms package 45 thus.

Drafting system 7 is the devices that become fibre bundle 8 be used to sliver 15 is extended.As shown in Figure 2, this drafting system 7 has: rear roller to the 16, the 3rd roller to 17, middle roller that tengential belt 18 is installed to 19 and front roller right to 20 4 rollers.

Textile apparatus 9 has can make fibre bundle 8 slotting rotating flow generation chamber of wearing (figure slightly).This textile apparatus 9 produces swirling eddy by the internal spray compressed air from figure nozzle slightly to this rotating flow generation chamber and make in this rotating flow generation chamber.And, thereby textile apparatus 9 applies twisted generation textile yarn 10 by this swirling eddy to fibre bundle 8.

In addition, in the textile apparatus 9, when weaving, can produce the flyings as fiber (removing material) of not twisted with the fingers textile yarn 10.These are removed material and remove suction tube 37, secondary duct 32 and the localized ducting 36 that portion 30 has via flyings and be transported to the continuous case of figure collection slightly etc.Thus, can not be trapped in the rotating flow generation chamber owing to remove material, so, can not hinder the generation of rotating flow.In addition, remove the detailed formation aftermentioned of portion 30 about these flyings.

Be provided with yarn holds and stays device 12 in the downstream of textile apparatus 9.This yarn holds and stays device 12 to have following function: textile yarn 10 is paid the tension force of regulation and the function of pulling out from textile apparatus 9; Make the textile yarn 10 that is sent from textile apparatus 9 be detained the lax function that prevents yarn when connecing yarn chassis 3 and connect yarn etc.; The function of to the mode of textile apparatus 9 side transmission yarn tension being regulated with the change of the yarn tension that do not make coiler device 13 sides.As shown in Figure 2, yarn holds and stays device 12 to have: yarn holds and stays roller 21, yarn engaging part 22, upstream side guiding piece 23, electro-motor 25, downstream guiding piece 26.

Yarn engaging part 22 constitutes and can engage (hook) with textile yarn 10, with state that textile yarn 10 engages under hold with yarn and to stay roller 21 to rotate integratedly, thus, textile yarn 10 can be constituted to the mode that this yarn holds the outer peripheral face guiding of staying roller 21.

Yarn holds and stays roller 21 can and holding and stay the mode of textile yarn 10 to constitute at its outer peripheral face coiling.Yarn holds and stays roller 21 to be driven in rotation with constant rotary speed by electro-motor 25.

In addition, yarn engaging part 22 is held with respect to yarn and is stayed roller 21 can counterrotating mode being supported, and, the moment of torsion generating mechanism by being made of magnetic mechanism etc. for example holds the mode of staying roller 21 to carry out counterrotating moment of torsion (opposing moment of torsion) with respect to yarn and constitutes so that opposing yarn engaging part 22 to take place.In this constitutes, under yarn engaging part 22 and situation that textile yarn 10 engages, act on tension force on the textile yarn 10 if strong to overcoming this opposing moment of torsion, then yarn engaging part 22 is held with respect to yarn and is stayed roller 21 to rotate independently, and textile yarn 10 holds from described yarn and stays roller 21 unwindings.On the contrary, if act on a little less than the warp tension ratio opposing moment of torsion on the textile yarn 10, then yarn engaging part 22 is held with yarn and is stayed the rotation of roller 21 one, textile yarn 10 is wound on described yarn holds and stay on the roller 21.

Like this, yarn hold stay device 12 with the back (textile yarn 10 is desired to become lax) that descends at the tension force of textile yarn 10 reel this textile yarn 10, after the tension force of textile yarn 10 rises, the mode of these textile yarn 10 unwindings is moved, thus, can eliminate the lax of textile yarn 10 and pay suitable tension force.In addition, as mentioned above, the mode of holding the change of the tension force on the textile yarn 10 that stays between device 12 and the coiler device 13 with absorption at yarn makes 22 actions of yarn engaging part, thus, can prevent that the influence of change of this tension force is to hold the textile yarn 10 that stays the device 12 from textile apparatus 9 to yarn.Thus, yarn holds and stays device 12 from textile apparatus 9 textile yarn 10 to be pulled out with more stable speed.

Upstream side guiding piece 23 is configured in yarn and holds the upstream side slightly that stays roller 21.This upstream side guiding piece 23 constitutes as hold the guiding parts that the outer peripheral face that stays roller 21 suitably leads to textile yarn 10 with respect to yarn.And, upstream side guiding piece 23 hold concurrently performance prevent from textile apparatus 9 propagate the textile yarn 10 that comes twisted propagate to the downstream of this upstream side guiding piece 23 prevent twisted effect.

In the front surface side of the frame 6 of spinning frame 1, hold the position of staying between the device 12 at described textile apparatus 9 and described yarn and be provided with yarn yarn clearer 52.Pass through described yarn yarn clearer 52 before staying device 12 to reel by textile apparatus 9 spun textile yarns 10 being held by yarn.The thickness that yarn yarn clearer 52 constitutes mobile textile yarn 10 monitors, under the situation of the yarn faults that detects textile yarn 10, not shown cell controller is sent the yarn faults detection signal.In addition, yarn yarn clearer 52 can also constitute except the thickness to textile yarn 10 and detect unusually, also whether textile yarn 10 is comprised foreign matter and detects.

After cell controller receives the yarn faults detection signal from yarn yarn clearer 52, under the state that drives coiler device 13, directly the driving of drafting system 7 is stopped, thus, cut off textile yarn 10, make then based on the weaving of textile apparatus 9 and based on the coiling of coiler device 13 etc. to stop.In addition, cell controller transmits control signal to connecing yarn chassis 3, and makes and connect yarn chassis 3 and move to before this weaving unit 2.Then, cell controller drives drafting system 7, textile apparatus 9 etc. again, makes the described yarn chassis 3 that connects connect yarn and the coiling based on coiler device 13 is begun again.At this moment, yarn hold stay device 12 textile apparatus 9 begin again to be woven into begin again based on coiler device 13 to reel during constitute so that the textile yarn of sending continuously from textile apparatus 9 10 holds the lax mode of staying roller 21 to be detained and eliminating textile yarn 10 at yarn.

As shown in Figures 1 and 2, connect yarn chassis 3 and have air splicer (connecing yarn feeding device) 43, suction pipe 44, suction nozzle 46.Connect yarn chassis 3 and constitute, when Yarn break or yarn taking place in certain weaving unit 2 cutting off, move to this weaving unit 2 and stop at track 41.Described suction pipe 44 sucks and catches the yarn ends that is sent from textile apparatus 9 and to air splicer 43 guiding at above-below direction while rotating centered by axle.Suction nozzle 46 centered by axle at above-below direction while rotating from being attracted to catch yarn ends by the package 45 of described coiler device 13 supportings and to air splicer 43 guiding.The yarn ends that air splicer 43 is directed to each other connect yarn.

Described suction pipe 44 constitutes and can rotate at above-below direction centered by axle, and the yarn ends (going up yarn) that is sent from textile apparatus 9 is sucked and catches, and to air splicer 43 guiding.Suction nozzle 46 constitutes and can rotate at above-below direction centered by axle, and attracts to catch yarn ends (yarn under working) from the package 45 of being supported by described coiler device 13, and to air splicer 43 guiding.Omission is each other carried out twisted but constitute by rotary air stream to yarn ends about the detailed formation of air splicer 43, thus, last yarn and yarn under working is connect yarn.

Coiler device 13 has the reel cage arm 71 that can swingingly be supported around bolster 70.This reel cage arm 71 can support the spool 48 for coiling textile yarn 10 rotatably.

In addition, described coiler device 13 has reel spool 72 and traversing gear 75.Reel spool 72 is can or being wound with textile yarn 10 thereon and mode that the outer peripheral face of the package 45 that forms contacts and drives constitutes with described spool 48.In addition, traversing gear 75 has the guiding piece 76 that traverses that can engage with textile yarn 10.Constitute by this, make the guiding piece 76 reciprocating motion limits of traversing by figure electrical motor driven reel spool 72 slightly by figure driving mechanism limit slightly, make package 45 rotations that contacts with reel spool 72 thus, and make textile yarn 10 while traversing coiling.

Below, mainly illustrate that with reference to Fig. 3 flyings remove the formation of portion 30.Fig. 3 is that the expression flyings are removed the vertical view cutaway drawing of the formation of portion 30.In addition, at the explanation flyings when removing portion 30, " upstream " reaches upstream and the downstream on the throughput direction that " downstream " refer to remove material.

At first, the summary to the mobile path of flyings of being produced by textile apparatus 9 etc. (below, be called and remove material) describes.In the spinning frame 1 of present embodiment, suction tube 37 shown in Figure 2 is configured on each weaving unit 2.In the downstream of this suction tube 37, as shown in Figure 3, be connected with secondary duct 32.In addition, be connected with suction tube 37 on the weaving unit 2 that is configured in specified quantity (in the present embodiment being 20) a secondary duct 32.In the present embodiment, owing to be the formation of a suction tube 37 of 1 weaving unit 2 configuration, so 20 suction tubes 37 are connected on the secondary duct 32.In addition, as shown in Figure 3, flyings are removed portion 30 and are had a plurality of such secondary duct 32.And all secondary duct 32 is connected with a localized ducting 36 in its downstream.In addition, as shown in Figure 3, secondary duct 32 is parallel in the longitudinal direction with localized ducting 36.In addition, secondary duct 32 and localized ducting 36 constitute constant dimension roughly rectangular-shaped of the fore-and-aft direction (direction in the paper table of the left and right directions of Fig. 2, Fig. 3) of spinning frame 1.

Below, each that illustrates that flyings remove that portion 30 has constitute in detail.As shown in Figure 3, flyings are removed portion 30 and are had filter component 33 and secondary air blast 31.

As shown in Figure 3, filter component 33 is configured between secondary air blast 31 and the secondary duct 32 near the coupling part (end in the downstream of secondary duct 32) of secondary duct 32 and localized ducting 36.Filter component 33 constitutes netted, and its grid constitutes in the mode that the mode that prevents from removing material 81 and pass through and air can pass through.In addition, filter component 33 disposes obliquely in the mode along with thruster downstream and then close localized ducting 36.

Secondary air blast 31 be configured in secondary duct 32 and localized ducting 36 coupling part (end in the downstream of secondary duct 32) near.This pair air blast 31 with can attract and make in this secondary duct 32 via the air of 33 pairs of secondary duct 32 sides of filter component and in the suction tube 37 etc. generations attract to flow 82 mode and constitute.This attraction stream 82 is mainly used in making the material 81 of removing that is produced by textile apparatus 9 to move to via suction tube 37 near the end in downstream of secondary duct 32.

In addition, attract stream 82 near the end in the downstream of secondary duct 32 (on the filter component 33), its part flows in the discharge pipe 61 by filter component 33, is discharged to the outside by being configured in suitable locational discharge portion 62.And remaining attraction stream 82 flows along filter component 33, and imports localized ducting 36 by the peristome 34 that is formed between secondary duct 32 and the localized ducting 36.Removing material 81 flows 82 (flowing 82 along the attractions that filter component 33 flows) in filter component 33 rollings and flows to localized ducting 36 by this latter's attraction.

In addition, near an end of localized ducting 36, in described air blast cabinet 4, dispose and concentrate air blast 35 (Fig. 1).Concentrate air blast 35 to make the downstream of localized ducting 36 become negative pressure, thus, in this localized ducting 36, produce air stream 83.Remove material 81 flows to an end that is configured in localized ducting 36 always by this air stream 83 the continuous case of figure collection slightly.

In addition, among the present invention, constitute along the big mode of flow that filter component 33 imports the attraction stream 82 of localized ductings 36 with the flow-rate ratio of the attraction that is discharged from by discharge portion 62 stream 82.Thus, can reduce the flow of concentrating the air stream 83 that air blast 35 attracts, so, the consumption electric power of this concentrated air blast 35 can be reduced.In addition, concentrate air blast 35 miniaturizations with relatively can making in the past.

Therefore, because a part that attracts stream 82 at filter component 33 flows in the direction (to secondary air blast 31 sides) vertical with this filter component 33, so it is stressed in the mode of pushing filter component 33 to remove material 81.Therefore, remove material 81 and be hooked on easily on the filter component 33, remove material 81 and be trapped in easily on the filter component 33.But in the present embodiment, the speed of removing material 81 of the direction (towards the direction of localized ducting 36) parallel with filter component 33 can not reduce, and removes material 81 and is difficult to be trapped on the filter component 33.Below, the formation that the speed of removing material 81 of the direction parallel with filter component 33 is not reduced describes.

That is, as shown in Figure 3, near the position that disposes filter component 33, secondary duct 32 is with along with constituting from upstream side trend downstream from localized ducting 36 away from the wall of the side mode near localized ducting 36 sides.As mentioned above, secondary duct 32 is because at the constant dimension of the fore-and-aft direction (direction in the paper table of Fig. 3) of spinning frame 1, so secondary duct 32 is along with reducing gradually from upstream side trend downstream sectional area (size).Dwindle shape by this, the flow velocity that can suppress the attractions stream 82 that flows along filter component 33 reduces.Therefore, because the speed of removing material 81 of the direction parallel with filter component 33 is difficult to reduce, so, remove material 81 and be difficult to be trapped on the filter component 33.

In addition, in the present embodiment, as mentioned above, dispose filter component 33 near the coupling part of secondary duct 32 and localized ducting 36 (peristome 34).Therefore, remove material 81 along with thruster is downstream advanced along what filter component 33 flowed, and further attracted by the air stream 83 of concentrating air blast 35 generations powerfully.That is to say, along with advancing along filter component 33 thruster downstream, though based on attracting 82 pairs of attractions of removing material 81 of stream to weaken, by assisting it based on the attraction of air stream 83.Its result is, the speed of removing material 81 of the direction parallel with filter component 33 is difficult to reduce, so, remove material 81 and be difficult to be trapped on the filter component 33.

In addition and since with the distance of distance air blast correspondingly the pressure loss increase, so, weaken at the suction pressure that is configured in apart from concentrating air blast 35 locational secondary duct 32 hollow air-flows 83 far away.This point is removed portion 30 for the flyings of present embodiment, and along with becoming far away apart from the distance of concentrating air blast 35, the size of peristome 34 increases, and prevents the reduction of the attraction of air stream 83.

Specifically, make the width of peristome 34 of left and right directions (removing the throughput direction of material 81, the left and right directions of Fig. 3) of spinning frame 1 along with apart from concentrating air blast 35 more far away and increase (Fig. 3).In addition, as mentioned above, secondary duct 32 and localized ducting 36 constant dimension on the fore-and-aft direction (direction in the paper table of Fig. 3) of spinning frame 1 is so the sectional area (size) of this width and peristome 34 is proportional.

As described above, reduce by the speed of removing material 81 that prevents the direction parallel with filter component 33, press to filter component 33 thrusters even remove material 81, also can remove material 81 and move to localized ducting 36 to make along the mode of rolling on this filter component 33.Therefore, material 81 can be prevented from removing in filter component 33 delays, thereby the maintenance man-hours of this filter component 33 can be reduced.

As described above, the spinning frame 1 of present embodiment has: weaving unit 2, secondary duct 32, secondary air blast 31, filter component 33, discharge portion 62, localized ducting 36, concentrated air blast 35.Secondary duct 32 is configured by the weaving unit 2 of every specified quantity (20).The material 81 of removing that is produced by weaving unit 2 flows in secondary duct 32.Secondary air blast 31 is used in the attraction stream 82 that attracts to remove material 81 and is created in the secondary duct 32.Filter component 33 is configured in the secondary duct 32, makes to attract the part of stream 82 to pass through.62 pairs of attraction streams 82 by filter component 33 of discharge portion are discharged.Localized ducting 36 is connected with secondary duct 32.The stream of the attraction by filter component 33 82 and to remove material 81 mobile localized ducting 36 in not.The air stream 83 of concentrating air blast 35 to be used in to remove material 81 to move is created in the localized ducting 36.The flow of the flow-rate ratio of the attraction stream 82 that is discharged from from discharge portion 62 36 attractions streams 82 that flow from secondary duct 32 to localized ducting is big.

Thus, spinning frame 1 36 flows from secondary duct 32 to localized ducting in large quantities owing to can prevent the attraction stream that produced by secondary air blast 31 82, so can suppress to concentrate air blast 35 to attract or the flow of the air sent.In addition, spinning frame 1 can utilize the attractions stream 82 that flows towards localized ducting 36, makes to remove material 81 and move to localized ducting 36 (or move auxiliary).Therefore, can suppress to concentrate air blast 35 to attract or the flow of the air sent.By more than, can make concentrated air blast 35 and the localized ducting 36 that spinning frame 1 has become compact.In addition, spinning frame 1 separates the formation that attracts stream 82 and remove material 81 for utilizing filter component 33, so, compare with the formation of utilizing centrifugal separator etc. to separate, can suppress device size compact.

In addition, in the spinning frame 1 of present embodiment, filter component 33 be configured in secondary duct 32 and localized ducting 36 the coupling part near.

Thus, near the coupling part of secondary duct 32 and localized ducting 36 (part in the downstream of secondary duct 32), attract stream 82 to be divided into localized ducting 36 sides and discharge portion 62 sides.So, after removing material 81 and flowing to the downstream of filter component 33, concentrate the air stream 83 of air blast 35 sides to act on this immediately and remove on the material 81.Therefore, thus spinning frame 1 can apply flexibly attraction stream 82 that secondary air blast 31 produces effectively and make and remove material 81 and move, and can suppress to remove material 81 and be trapped on the filter component 33.

In addition, in the spinning frame 1 of present embodiment, the length direction of secondary duct 32 is parallel with the length direction of localized ducting 36.

Thus, secondary duct 32 and localized ducting 36 can be disposed compactly, so, can prevent the maximization of spinning frame 1.

In addition, in the spinning frame 1 of present embodiment, secondary duct 32 disposes in the mode that the moving direction of removing material 81 becomes identical with localized ducting 36.Filter component 33 is in the moving direction of removing material 81, to dispose obliquely near the mode of localized ducting 36 length direction with respect to localized ducting 36 along with advancing to the downstream of secondary duct 32.

Thus, spinning frame 1 can make along filter component 33 and move to localized ducting 36 with respect to the material 81 of removing that the length direction of localized ducting 36 rolls sideling.Therefore, can make and remove material 81 and be difficult to be trapped on the filter component 33.

In addition, in the spinning frame 1 of present embodiment, in the flow direction of secondary duct 32 with the stream of the attraction in this secondary duct 32 82, the mode that the flow path cross sectional area in the downstream of filter component 33 is littler than the flow path cross sectional area of the upstream side of filter component 33 constitutes.

Thus, even attract the part of stream 82 to be discharged from via filter component 33 and discharge portion 62, the flow velocity of the attraction stream 82 in the secondary duct 32 also is difficult to reduce.Therefore, can make with removing material 81 brute forces and move to localized ducting 36, can suppress to remove material 81 and be trapped on the filter component 33.

In addition, in the spinning frame 1 of present embodiment, filter component 33 constitutes netted, and it is thin that the mesh ratio of this filter component 33 is removed material 81.

Thus, can make accurately with simple formation and attract stream 82 and remove material 81 and separate.

In addition, in the spinning frame 1 of present embodiment, spinning frame 1 has two (being 20 in the present embodiment) secondary duct 32 at least.As being that the size of peristome forms for a short time apart from the size of the peristome of the coupling part of concentrating the near secondary duct 32 of air blast 35 and localized ducting 36 than the size apart from the coupling part of concentrating air blast 35 secondary duct 32 far away and localized ducting 36.

Thus, can suppress with apart from the distance of concentrating air blast 35 correspondingly the intensity of air stream 83 become inhomogeneous situation (even away from concentrated air blast 35, the intensity of air stream 83 also is difficult to reduction).

Below, with reference to Fig. 4 to Fig. 7, the variation (first variation to the, four variation) of above-mentioned embodiment is described.Fig. 4 is that the flyings of expression first variation are removed the figure of the action of the breaking member 39 that the 30a of portion has.Fig. 5 is that the flyings of expression second variation are removed the vertical view cutaway drawing of the formation of the 30b of portion.Fig. 6 be the flyings of expression the 3rd variation formation of removing the 30c of portion overlook cutaway view Amplified image.Fig. 7 is the front view of the automatic bobbin winder of the 4th variation.In addition, in the explanation of first variation to the, four variation of the following stated, may be in the accompanying drawings to the identical mark of identical with aforesaid embodiment or similar parts mark, and omit explanation.

At first, first variation is described.Shown in Fig. 4 (b), the flyings of first variation are removed the 30a of portion and are removed the formation that further has breaking member 39 in the portion 30 at the flyings of above-mentioned embodiment.This breaking member 39 is made of the material that passes through that can prevent from attracting flowing 82.Breaking member 39 constitutes and can switch the position in primary importance and the second place, wherein, described primary importance be configured in can prevent between secondary air blast 31 and the filter component 33 attracting flowing 82 from filter component 33 to discharge pipe the position (Fig. 4 (b)) of 61 side flow; The described second place is the position of blocking filter parts 33 not.In addition, the switching of primary importance and the second place can be adopted the formation switched by operator's operation or the formation switched automatically according to situation (or every stipulated time) etc.

Below, the action of removing material 81 during to moment of the position of switching breaking member 39 and switching position describes.Usually breaking member 39 is placed the second place.In addition, though the flyings of present embodiment are removed portion 30 for to be difficult to be detained the formation of removing material 81 at filter component 33, still, need in any case to consider to cause removing material 81 and be trapped in situation (Fig. 4 (a)) on the filter component 33 because of long-term the use.In this case, because secondary air blast 31 is difficult to attract the air in the secondary duct 32, so the attraction that secondary air blast 31 produces secondary duct 32 in is flowed 82 and weakened.Its result is suitably to attract the material 81 of removing that is produced by textile apparatus 9.

In this variation, be detained when removing material 81 at filter component 33 like this, breaking member 39 is being switched to primary importance from the second place.Its result is that the material 81 of removing that is not drawn to discharge pipe 61 side draughts leaves from filter component 33 easily, and passes through the attraction of the air stream 83 of concentrated air blast 35 generations, removes material 81 easily to localized ducting 36 side flow.As described above, can remove to be trapped in and remove material 81 on the filter component 33.

Below, second variation is described.The flyings of second variation remove the 30b of portion so that in the above-described embodiment the equal mode of sectional area (size) of different peristomes 34 constitute (Fig. 5).In addition, flyings are removed the 30b of portion and are had the secondary air blast control part (control part) 51 that the attraction of the attraction stream 82 that can produce secondary air blast 31 is adjusted.Secondary air blast control part 51 for example by making the variations such as rotary speed of the blade that secondary air blast 31 has, can be adjusted the attraction that attracts stream 82.Secondary air blast control part 51 for example has converter Control portion, can carry out reaching and corresponding second control of coiling condition apart from corresponding first control of the distance of concentrating air blast 35 with secondary air blast 31.

At first, first control that secondary air blast control part 51 carries out is described.Apart from concentrating air blast 35 to dispose more far, control by the mode that the attraction of the attraction stream 82 of its generation becomes more big with secondary air blast 31 for secondary air blast control part 51.Constitute by this, even in the secondary duct 32 of concentrating air blast 35 position far away, also can increase the attraction that attracts stream 82 in the mode of the attraction of the auxiliary air stream 83 that reduces.Therefore, the material 81 of removing in the secondary duct 32 suitably can be transported to localized ducting 36.By carrying out this control, can make the width of peristome 34 identical in each secondary duct 32.Therefore, can make the manufacturing of secondary duct 32 grades and assembling become simple.

In addition, the formation that replaces flyings to remove the 30b of portion can also constitute in the mode of exporting more big secondary air blast 31 apart from 31 configurations of the secondary air blast of concentrating air blast 35 far to dispose for omitting secondary air blast control part 51.Even also can make in this case, the width of peristome 34 identical in each secondary duct 32.

Below, second control that secondary air blast control part 51 is carried out according to the coiling condition describes.About removing the degree that material 81 is detained easily with respect to filter component 33, according to the coiling condition and difference.Secondary air blast control part 51 for example removing under the situations that material 81 is detained easily, reduces the attraction that attracts stream 82, and it is 83 little that influence that this attractions flows 82 attraction is flowed than air.Its result is, owing to can improve along the speed of removing material 81 of the direction of filter component 33, so, remove material 81 more difficult being trapped on the filter component 33.

In addition, replace (or except) secondary air blast control part 51, can also be for having the formation of the concentrated air blast control part that the attraction of concentrating the air stream 83 that air blast 35 produces is controlled.Under this situation, removing under the situations that material 81 is detained easily, the attraction by increasing air stream 83 and making along the speed of removing material 81 of the direction of filter component 33 improves, and can suppress this delay.

Below, the 3rd variation is described.As shown in Figure 6, remove among the 30c of portion at the flyings of the 3rd variation, be connected with a plurality of suction tubes 37 from the length direction both sides of secondary duct 32 to central portion.Secondary air blast 31 and filter component 33 be configured in secondary duct 32 central portion near.Secondary air blast 31 makes to produce in this secondary duct 32 in the mode from the length direction both end sides of secondary duct 32 to central authorities and attracts stream 82.

Constitute by this, suction tube 37 in, flow and arrive secondary duct 32 to remove material 81 mobile to the center side of secondary duct 32.And, with above-mentioned embodiment similarly, a part that attracts stream 82 is discharged via filter component 33 and discharge pipe 61 and by discharge portion 62.Remove material and flow in the mode of rolling at filter component 33, and flow to localized ducting 36.

Below, the 4th variation is described.As shown in Figure 7, the 4th variation is to replace spinning frame the present invention to be applicable to the formation of automatic bobbin winder.Automatic bobbin winder has a plurality of winders unit (winder unit) 100 abreast.In addition, automatic bobbin winder has with the flyings of the equal formation of aforesaid embodiment or its variation and removes the 30d of portion.

Below, the formation of winder unit 100 is described simply.In the winder unit 100, to pay the winding tension that parts 94 are paid regulation from the textile yarn 92 of yarn feeding spool 93 unwindings by tension force by yarn feeder 90, the reel spool 98 that has by coiler device 97 makes textile yarn 92 traverse and reel on the surface of package 99 simultaneously.In addition, winder unit 100 has: be used for yarn defect detecting device 96 that the yarn faults to mobile textile yarn 92 monitors, connect yarn feeding device 95 for what the yarn under working to yarn on package 99 sides and yarn feeding spool 93 sides connect yarn when yarn cuts off.In addition, though omit the detailed formation of yarn feeder 90, as yarn feeder 90, for example can adopt by the spool induction system and carry the formation of yarn feeding spool 93 or supply with the formation of yarn feeding spool 93 from yarn storehouse formula feed system.

And this winder unit 100 and yarn road from the textile yarn 92 of yarn feeding spool 93 unwindings closely have and attract mouthfuls 91.This attraction mouth 91 is positioned at the upstream side slightly of yarn feeder 90, is configured in the position that tension force is paid the rear of parts 94.This attracts mouthfuls 91 to be connected with secondary duct 32 via suction tube 37.And, produce by secondary air blast 31 and to attract stream, thus, the material of removing that is attached to flyings from the textile yarn 92 of yarn feeding spool 93 unwindings, yarn bits etc. is attracted to remove, this can be removed substance to localized ducting 36.Being transported to removing of localized ducting 36 goes out of use after material is transported to the continuous case of collection etc. by the air stream 83 of concentrating air blast 35 and producing.

In addition, attract the position of mouth, localized ducting, secondary duct for arbitrarily, for example can with attraction mouth 91, secondary duct 32 and localized ducting 36 be configured in like that shown in the chain-dotted line among Fig. 7 yarn feeder 90 near.

As described above, the spinning frame 1 of the first above-mentioned variation, between secondary air blast 31 and filter component 33, have can be temporarily with the breaking members 39 of 62 attraction stream 82 blocking-up from secondary duct 32 to discharge portion.

Thus, 62 attraction stream 82 carries out temporary interruption from secondary duct 32 to discharge portion by 39 pairs of breaking members, and thus, removing material 81 can easily break away from from filter component 33.Therefore, can make to be trapped in and remove material 81 easily to localized ducting 36 side shiftings on the filter component 33.Therefore, can reduce the maintenance man-hours of filter component 33.

In addition, the spinning frame 1 in above-mentioned second variation has the secondary air blast control part 51 that the attraction of the attraction stream 82 that secondary air blast 31 is produced is controlled.

Thus, spinning frame 1 attracts the attraction of stream 82 to control by 51 pairs of secondary air blast control parts, thus, can adjust near the flowing of air of filter component 33.Therefore, can prevent from removing material 81 and be trapped on the filter component 33, so, the maintenance man-hours of filter component 33 can be reduced.But, as above-mentioned embodiment, the spinning frame 1 that has omitted secondary air blast control part 51 has advantages such as the simplification of formation, inhibition consumed energy.

In addition, in the 4th above-mentioned variation, winder unit 100 has yarn feeder 90 and coiler device 13.Yarn feeder 90 is supplied with textile yarn 92.Coiler device 97 is wound on textile yarn 92 in the package.

Thus, effect of the present invention is achieved in automatic bobbin winder.

More than illustrated of the present inventionly preferred embodiment to reach variation, but above-mentioned formation can also change in for example following mode.

In the above-mentioned embodiment, be that the size of peristome 34 changes by the coupling part that makes secondary duct 32 and localized ducting 36, adjust the intensity of air stream 83.In second variation, make the equal and opposite in direction of peristome 34, control by 51 pairs of secondary air blasts 31 of secondary air blast control part, adjust the intensity of air stream 83 thus.As other other variation, can also as above-mentioned embodiment, the size of peristome 34 be changed, and as above-mentioned second variation, secondary air blast control part 51 is set controls secondary air blast 31.The size of peristome 34 is in case determine just to be difficult to adjust.In addition, according to the boundary of the throughput of secondary air blast 31 itself and consumed energy, the running efficiency of secondary air blast 31, exist the control of only being undertaken by secondary air blast control part 51 air can't be flowed the situation that 83 intensity is adjusted to desirable intensity.Therefore, by as these other variation, constituting fibre machinery, increased the free degree of fibre machinery integral body, so especially preferred.

Replacing making the platform number that is connected a weaving unit 2 on the secondary duct 32 is 20 situation, can also for 1～more than 19 or 21.In addition, at the platform number of the unit that spinning frame 1 or automatic bobbin winder have for for example surpassing under 80 many situation, remove in the formation of portion 30 at the flyings that do not have above-mentioned embodiment, the size of localized ducting increases, and the consumption electric power of concentrated air blast may surpass allows electric power.But as above-mentioned embodiment, the unit by every regulation platform number just arranges flyings and removes portion 30, and localized ducting 36 is formed compactly, and, can avoid concentrating the consumption electric power of air blast 35 to surpass and allow electric power.The platform number of putting down in writing in the above-mentioned explanation is an example, and the platform number of the unit that spinning frame 1 or automatic bobbin winder are had does not arrange the upper limit.

Except the suction tube 37 of above-mentioned explanation, when the present invention was applicable to spinning frame 1, the suction tube that flyings on the drawing rollers that are attached to drafting system 7 etc. are attracted also can be connected on the secondary duct 32.In addition, the suction tube that is used for attraction yarn bits that the downstream of textile apparatus 9 has also can be connected secondary duct 32.And in the weaving loom of the formation that connects yarn etc. by winder unit, the pipe that yarn bits that produce when connecing yarn etc. attract can also be connected on the secondary duct 32.

In the above-mentioned explanation, when detecting yarn faults etc., under the state that drives coiler device 13, drafting system 7 is stopped, thus, cut off textile yarn 10, but can also replace this formation, become near the formation that yarn yarn clearer 52, has cutter, textile yarn 10 is cut off by this cutter.

In the weaving unit 2, hold by yarn and to stay device 12 to pull out textile yarn 10 from textile apparatus 9, but be not limited to this formation.For example, the present invention can also be applicable to following spinning frame, namely pull out textile yarn 10 by transmitting roller and clamping roller from textile apparatus 9, then, hold by the yarn that is located at the downstream and to stay 12 pairs of textile yarns 10 of device to hold to stay.In addition,, can also omit yarn and hold and stay device 12 to pull out from textile apparatus 9 under the situation that the mode of textile yarn 10 constitutes by transmitting roller and clamping roller as described above.

Formation of the present invention is not limited to spinning frame or automatic bobbin winder, can also be applicable to yarn-twisting machine for example and close the fibre machinery of yarn machine etc.

The explanation of Reference numeral

1 spinning frame (fibre machinery)

30 flyings are removed portion

31 secondary air blasts

32 secondary duct

33 filter components

35 concentrate air blast

36 localized ductings

81 remove material

82 attract stream

83 air stream

Claims

1. fibre machinery is characterized in that having:

Winder unit;

By the described winder unit configuration of every specified quantity, the secondary duct of removing flow of matter that supplies this winder unit to produce;

In described secondary duct, produce and be used for attracting the described secondary air blast of removing the attraction stream of material;

The filter component that a part that is configured in the described secondary duct, described attraction is flowed is passed through;

Make the discharge portion of the described attraction stream discharge of having passed through described filter component;

Be connected on the described secondary duct, supply not flow and the described localized ducting of removing flow of matter by the described attraction of described filter component;

In described localized ducting, produce to be used for making the described concentrated air blast of removing the air stream that material moves,

The flow of the described attraction stream that the flow-rate ratio of the described attraction stream that is discharged from from described discharge portion flows from described secondary duct to described localized ducting is big.

2. fibre machinery as claimed in claim 1 is characterized in that:

Described filter component be configured in described secondary duct and described localized ducting the coupling part near.

3. fibre machinery as claimed in claim 1 or 2 is characterized in that:

The length direction of described secondary duct is parallel with the length direction of described localized ducting.

4. fibre machinery as claimed in claim 3 is characterized in that:

Described secondary duct disposes in the described identical mode of moving direction of removing material with described localized ducting,

Described filter component in the described moving direction of removing material, disposes near the mode of the described localized ducting length direction with respect to described localized ducting obliquely to advance along with the downstream to described secondary duct.

5. as each described fibre machinery of claim 1～4, it is characterized in that:

Described secondary duct in the flow direction of the described attraction stream in this secondary duct, constitutes in the flow path cross sectional area mode littler than the flow path cross sectional area of the upstream side of described filter component in the downstream of described filter component.

6. as each described fibre machinery of claim 1～5, it is characterized in that:

Have control part, at least one side in the intensity of the described attraction stream that this control part produces described secondary air blast and the intensity of the described air stream that described concentrated air blast produces controls.

7. as each described fibre machinery of claim 1～6, it is characterized in that:

Described filter component constitutes netted, and to remove material thin than described for the mesh of this filter component.

8. as each described fibre machinery of claim 1～7, it is characterized in that:

At least have two described secondary duct,

As with the size of the peristome of the coupling part of the close described secondary duct of described concentrated air blast and described localized ducting, be that the size of peristome forms for a short time than the size away from the coupling part of the described secondary duct of described concentrated air blast and described localized ducting.

9. as each described fibre machinery of claim 1～8, it is characterized in that:

Have breaking member between described secondary air blast and described filter component, this breaking member can the described attraction stream of temporary interruption from described secondary duct to described discharge portion.

10. as each described fibre machinery of claim 1～9, it is characterized in that:

Described winder unit has:

Sliver is carried out the drafting system of drawing-off;

Apply twisted and the textile apparatus generation textile yarn to the sliver by described drafting system drawing-off;

To be wound into the coiler device of package by the described textile yarn that described textile apparatus generates.

11. each the described fibre machinery as claim 1～9 is characterized in that:

Described winder unit has:

Supply with the yarn feeder of textile yarn;

Described textile yarn is wound into the coiler device of package.