CN106219319A - The raw yarn coiler device of scalable winding angle - Google Patents

Abstract

The present invention relates to the raw yarn coiler device of scalable winding angle, scalable raw yarn is wound in the winding angle of bobbin from traverse guide, prevents saddle phenomenon, protrudes phenomenon, the concavo-convex phenomenon in side and folded circle phenomenon, and makes the Quality advance of spinning cake.As an example, the raw yarn coiler device of the open scalable winding angle of the present invention, it is characterized in that, including: traversing portion, there is traverse guide and speed controlling portion, above-mentioned traverse guide is for making to the horizontal traversing of the raw yarn of Cylinder feeder, and above-mentioned speed controlling portion is for controlling the translational speed of above-mentioned traverse guide；Backer roll, is positioned at the bottom in above-mentioned traversing portion, for above-mentioned raw yarn is submitted to bobbin, and pressurizes above-mentioned bobbin；And coil holder, it being positioned at the bottom of above-mentioned backer roll, and combine with above-mentioned bobbin, above-mentioned speed controlling portion controls the translational speed of above-mentioned traverse guide, regulates above-mentioned raw yarn and is wound in the winding angle of above-mentioned bobbin from traverse guide.

Description

The raw yarn coiler device of scalable winding angle

Technical field

The present invention relates to the raw yarn coiler device of scalable winding angle.

Background technology

Generally, during winding raw yarn, the winding width that important factor is traversing gear of its shape is determined.Volume Different, according to the needs of subsequent handling, with cheese shape, cone shape according to the width of this winding width around shape Etc. variously-shaped winding.

The width of above-mentioned winding width is determined by traversing gear substantially, for above-mentioned traversing gear, it is proposed that utilize cam to fill The various methods such as the method put, the method utilizing wing device.The winding width determined by above-mentioned traversing gear can be categorized as The winding width of regulation, the winding width periodically changed, the winding width etc. that according to circumstances changes.

As it has been described above, not only regulation winding width optimizes winding form, and remove and in subsequent handling, yarn is untied Solve the bad of yarn operation such that it is able to wind various yarns with outstanding quality.It addition, the regulation of this winding width Technology can be improved the saddle phenomenon that importantly processes in terms of winding form and protrude phenomenon, thus can produce have good Shape and eliminate the bad spinning cake of subsequent handling.

Summary of the invention

The present invention provides the raw yarn coiler device of scalable winding angle (helix angle), and scalable raw yarn is from traversing guide Device is wound in the winding angle of bobbin, prevents saddle phenomenon, protrudes phenomenon, the concavo-convex phenomenon in side and folded circle phenomenon, and makes The Quality advance of spinning cake.

The raw yarn coiler device of the scalable winding angle of the present invention, it is characterised in that including: traversing portion, has traversing and leads Yarn device and speed controlling portion, above-mentioned traverse guide is for making to the horizontal traversing of the raw yarn of Cylinder feeder, above-mentioned speed controlling Portion is for controlling the translational speed of above-mentioned traverse guide；Backer roll, is positioned at the bottom in above-mentioned traversing portion, for by above-mentioned Raw yarn is submitted to bobbin, and pressurizes above-mentioned bobbin；And coil holder, it is positioned at the bottom of above-mentioned backer roll, and with upper Stating bobbin to combine, above-mentioned speed controlling portion controls the translational speed of above-mentioned traverse guide, regulates above-mentioned raw yarn from horizontal stroke Dynamic yarn guide is wound in the winding angle of above-mentioned bobbin.

If it addition, the translational speed that above-mentioned speed controlling portion makes above-mentioned traverse guide accelerates, the most above-mentioned winding angle becomes big, Thus the winding width of the raw yarn being wound in above-mentioned bobbin can be reduced, if above-mentioned speed controlling portion makes above-mentioned traverse guide Translational speed is slack-off, and the most above-mentioned winding angle diminishes, thus can increase the winding width of the raw yarn being wound in above-mentioned bobbin.

It addition, above-mentioned winding angle can be wound in the time of above-mentioned bobbin according to above-mentioned raw yarn and differently be adjusted, and Combine the first auxiliary patterns in basic pattern and the second auxiliary patterns determines.

It addition, the above-mentioned first the most above-mentioned winding angle of auxiliary patterns increases to target volume from 0 within the very first time Around angle, again be decreased to 0 form.

It addition, above-mentioned first auxiliary patterns can maintain constant time with above-mentioned target volume around angle.

It addition, the cycle of above-mentioned first auxiliary patterns can change over time.

It addition, the target winding angle of above-mentioned first auxiliary patterns can change over time.

It addition, the above-mentioned second the most above-mentioned winding angle of auxiliary patterns increases to second from the first winding angle centered by 0 Winding angle, the form reduced again.

The raw yarn coiler device of the scalable winding angle of one embodiment of the invention can control the translational speed of traverse guide, Regulate raw yarn and be wound in the winding angle of bobbin from traverse guide.Therefore, the raw yarn volume of the scalable winding angle of the present invention The above-mentioned winding angle of winding apparatus scalable regulates the winding width of the raw yarn being wound in bobbin, thus prevents saddle phenomenon, convex Occur as, the concavo-convex phenomenon in side and folded circle phenomenon.

Accompanying drawing explanation

Fig. 1 is the schematic side view of the raw yarn coiler device of the scalable winding angle illustrating one embodiment of the invention.

Fig. 2 is the brief front view of the raw yarn coiler device of the scalable winding angle illustrating one embodiment of the invention.

Fig. 3 is the corresponding winding angle of winding width illustrating the mobile width with traverse guide and the raw yarn that is wound in bobbin The figure of size.

Fig. 4 is the chart of the relation illustrating winding angle and winding width.

Fig. 5 a is the chart of the pattern illustrating the size determining winding angle corresponding with the winding time of raw yarn.

Fig. 5 b is the chart of the pattern illustrating the size determining winding angle corresponding with the winding time of raw yarn.

Fig. 5 c is the chart of the pattern illustrating the size determining winding angle corresponding with the winding time of raw yarn.

Fig. 5 d is the chart of the pattern illustrating the size determining winding angle corresponding with the winding time of raw yarn.

Fig. 6 is the chart of another embodiment illustrating the first auxiliary patterns shown in Fig. 5 b.

(explanation of reference)

100: raw yarn coiler device；110: traversing portion；111: traverse guide；112: speed controlling portion

120: backer roll；130: coil holder；131: bobbin

Detailed description of the invention

Preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings so that general technical staff of the technical field of the invention The present invention can be easily implemented with.Here, in this specification, for having the part of similar structure and action, Mark identical reference.

Fig. 1 is the schematic side view of the raw yarn coiler device of the scalable winding angle illustrating one embodiment of the invention.Fig. 2 For illustrating the brief front view of the raw yarn coiler device of the scalable winding angle of one embodiment of the invention.Fig. 3 for illustrate with The figure of the size of the corresponding winding angle of winding width of the mobile width of traverse guide and the raw yarn that is wound in bobbin.Fig. 4 For illustrating the chart of the relation of winding angle and winding width.

Seeing figures.1.and.2, the raw yarn coiler device 100 of the scalable winding angle of one embodiment of the invention includes traversing Portion 110, backer roll 120 and coil holder 130.The raw yarn coiler device of the scalable winding angle of one embodiment of the invention 100 for being wound on the device on the bobbin 131 combined with coil holder 130 by raw yarn.

Above-mentioned traversing portion 110 includes: traverse guide 111, for making the raw yarn to the supply of above-mentioned bobbin 131 the most horizontal Dynamic；And speed controlling portion 112, for controlling the translational speed of above-mentioned traverse guide 111.If above-mentioned traverse guide 111 traverse motions, the most above-mentioned raw yarn is wound in bobbin 131 in the way of having the winding width of regulation.Such as Fig. 3 institute Show, the actual winding width of above-mentioned traverse guide 111 reciprocating traversing width and the raw yarn being wound in bobbin 131 Different.This is because, in period of winding width of the bobbin 131 of the winding raw yarn being transferred to reality, traversing width because of Winding angle (helix angle) A and attenuation rate and change.Here, attenuation rate by the inertia of raw yarn and tension force, from The function of the frictional force at the position contacted with raw yarn by the size of length, contact pressure etc. determines.In the present invention, Assume that attenuation rate is constant.It addition, above-mentioned winding angle A refers to that the reciprocating motion by traverse guide 111 is by raw yarn It is wound in the angle of bobbin 131.Specifically, above-mentioned winding angle A is linear velocity and the horizontal stroke of traverse guide of spinning cake external diameter The angle formed to linear velocity.

Above-mentioned speed controlling portion 112 controls the translational speed of above-mentioned traverse guide 111.Here, above-mentioned traversing guide The translational speed of device 111 produces impact to winding angle A.If above-mentioned speed controlling portion 112 makes the shifting of traverse guide 111 Dynamic speed accelerates, then winding angle A becomes big, if the translational speed that above-mentioned speed controlling portion 112 makes traverse guide 111 becomes Slowly, then winding angle A diminishes.Now, it is assumed that traverse guide 111 reciprocating traversing width is fixed.On it addition, The winding width stating the winding angle A raw yarn on being wound in bobbin 131 produces impact.The situation that attenuation rate is constant in figure 3 Under, as shown in Figure 4, winding angle A is inversely proportional to the winding width of the raw yarn being wound in bobbin 131.If that is, winding angle A becomes big, then the winding width of the raw yarn being wound in bobbin 131 reduces, if winding angle A diminishes, is then wound in bobbin 131 Raw yarn winding width increase.Finally, above-mentioned speed controlling portion 112 plays the mobile speed controlling traverse guide 111 Degree regulates the effect of the winding width of the raw yarn being wound in bobbin 131.

Above-mentioned backer roll 120 is positioned at the bottom in above-mentioned traversing portion 110, and the raw yarn that will be supplied by above-mentioned traversing portion 110 It is submitted to bobbin 131.It addition, above-mentioned backer roll 120 is positioned at the top of coil holder 130, and play when above-mentioned raw yarn When being wound in bobbin 131, raw yarn is stably wound in by the pressurization of above-mentioned bobbin 131 effect of bobbin 131.Above-mentioned add Pressure roller 120 contacts with above-mentioned bobbin 131, rotates, on one side in the way of making raw yarn be wound in above-mentioned bobbin 131 Bobbin 131 is pressurizeed.

Above-mentioned coil holder 130 is positioned at the bottom of above-mentioned backer roll 120, and supports the bobbin for winding above-mentioned raw yarn 131.That is, it is combined with bobbin 131 at above-mentioned coil holder 130.Above-mentioned coil holder 130 by means of motor etc. with regulation Speed rotate, accordingly raw yarn is wound in above-mentioned bobbin 131.

Hereinafter, the action of the raw yarn coiler device 100 with structure as above is briefly described.

Above-mentioned raw yarn combines with the bobbin 131 being arranged at coil holder 130, is wound in above-mentioned bobbin 131 accordingly.This Time, above-mentioned raw yarn is by means of the traverse guide 111 in traversing portion 110 and traverse motion, to have the volume of regulation Mode around width is wound in above-mentioned bobbin 131.It addition, speed controlling portion 112 controls the shifting of above-mentioned traverse guide 111 Dynamic speed, regulates the winding width of the raw yarn being wound in bobbin 131.Certainly, now, above-mentioned backer roll 120 is with perseverance Above-mentioned bobbin 131 is pressurizeed by fixed power, makes above-mentioned raw yarn closely be wound in above-mentioned bobbin 131 accordingly.It addition, bobbin Support 130 and backer roll 120 control rotary speed by means of velocity sensor (not shown).

On the other hand, when the direction of motion of traverse guide 111 changes, above-mentioned raw yarn rests on bobbin 131 The time at two ends is the longest, thus the saddle that the rolling thickness that is likely to occur the two ends of above-mentioned bobbin 131 is the most thickening (saddle) phenomenon.It addition, above-mentioned raw yarn is during being wound in above-mentioned bobbin 131, it is possible to occur because of winding The side of the change of width or the contractility etc. of the raw yarn of winding and protrusion (bulge) phenomenon that side expands or spinning cake highlights Or the concavo-convex phenomenon in side somewhat caved in and raw yarn are wound in the folded circle phenomenon etc. of identical position repeatedly.

Therefore, the raw yarn coiler device 100 of the present invention can control the speed of traverse guide 111 to regulate winding angle A, Thus regulation is wound in the winding width of raw yarn of bobbin 131, prevent saddle phenomenon, to protrude phenomenon, side concavo-convex existing As with folded circle phenomenon.Therefore, the spinning cake shape being formed at bobbin 131 is outstanding.Here, spinning cake refers at bobbin 131 On wound the state of raw yarn.Thus, it is used in the constant tension of raw yarn when solving yarn manufacturing various dress materials, and can be suitable Carry out the subsequent handlings such as dyeing sharply.

Then, the concrete grammar regulating the winding angle of raw yarn coiler device in order to make the Quality advance of spinning cake is said Bright.

Fig. 5 a to Fig. 5 d illustrates the chart of the pattern of the size determining winding angle corresponding with the winding time of raw yarn.Fig. 6 For illustrating the chart of another embodiment of the first auxiliary patterns shown in Fig. 5 b.Here, user of service determines and raw yarn The size of winding time corresponding winding angle A and input to speed controlling portion 112, above-mentioned speed controlling portion 112 is with symbol The mode of the size closing the winding angle A inputted regulates the translational speed of traverse guide 111.In the present invention, with volume Size around time corresponding winding angle A combines the first auxiliary patterns and the second auxiliary patterns in basic pattern and determines.

As shown in Figure 5 a, user of service determines the size of winding angle A corresponding with the time, determines basic pattern.Example As, above-mentioned basic pattern is divided into the first interval S1, the second interval S3 of interval S2 and the 3rd according to the winding time of raw yarn. Above-mentioned winding angle A with the first interval S1 have the first gradient a1, the second interval S2 have the second gradient a2, And the mode having the 3rd gradient a3 at the 3rd interval S3 sets.Set at the above-mentioned first interval S1, above-mentioned winding angle A It is set in the way of reaching benchmark winding angle AS and there is the first gradient a1 and become larger.It addition, in above-mentioned secondth district Between S2, above-mentioned winding angle A set maintaining in the way of benchmark winding angle AS.That is, above-mentioned second gradient a2 set It is 0.Then, it is set as, with benchmark winding angle AS, there is the 3rd inclination at the above-mentioned 3rd interval S3, above-mentioned winding angle A Degree a3, and taper into.Here, the absolute value of the first gradient a1 is set greater than the absolute of the 3rd gradient a3 Value (| a1 | ＞ | a3 |).Like this, the present invention can differently set inclining of winding angle A by being used for winding the interval of raw yarn Gradient, prevents the basic protrusion phenomenon of spinning cake.Certainly, with for winding the interval of raw yarn independently, can will wind Angle A is all set to constant.But, want to prevent from protruding phenomenon, it is preferable that by for winding the interval of raw yarn not Set together the gradient of winding angle A.It addition, basic pattern is not limited to above-mentioned pattern, and can be with other morphosiies.

Then, as shown in Figure 5 b, user of service determines the first auxiliary patterns.Above-mentioned first auxiliary patterns is repeatedly In one time t1, winding angle A increases to target winding angle AG from 0, then is decreased to the pattern of the form of 0.Here, After above-mentioned first auxiliary patterns can also maintain the stipulated time with target winding angle AG, it is decreased to 0.Above-mentioned first auxiliary The cycle helping pattern can set in the way of periodically or non-periodically.That is, the cycle of above-mentioned first auxiliary patterns can be with The time of wearing changes.Here, the very first time t1 decision that winding angle A increases to target winding angle AG, reduces Rolling density at the interval winding raw yarn that winding width narrows.Therefore, the above-mentioned rolling density of scalable of the present invention, delays The concavo-convex phenomenon in side that when solving winding, side highlights or somewhat caves in.And then, the present invention can the most above-mentioned first auxiliary patterns Prevent saddle phenomenon.

On the other hand, the target winding angle AG of above-mentioned first auxiliary patterns may be set to have the desired value of fixed value and fixes Type (with reference to (a) part of Fig. 6) or desired value Ratio-type (the reference Fig. 6 measured with basic pattern increase setting X (b) part) or there is the desired value arbitrarily setting type (with reference to (c) part of Fig. 6) of arbitrary value.That is, target Value Ratio-type or desired value arbitrarily setting type are set as that target winding angle AG changes over time.

Then, as shown in Figure 5 c, user of service determines the second auxiliary patterns.Above-mentioned second auxiliary patterns is for continue repeatedly Winding angle A increases to the second winding angle A2, then the pattern of the form reduced from the first winding angle A1 centered by 0.This Time, from the second time t2 of the first winding angle A1 change to the second winding angle A2 can be and above-mentioned very first time t1 phase Than the shortest time.Certainly, if above-mentioned very first time t1 is less than or equal to the second time t2, then forming the In the time of one auxiliary patterns, the second auxiliary patterns can be omitted.This second auxiliary patterns plays and makes winding angle generation the biggest Variation prevents from being repeatedly wound in the effect of the folded circle phenomenon of same position.It addition, together utilizing with the first auxiliary patterns In the case of above-mentioned second auxiliary patterns, the effect preventing folded circle phenomenon is more preferable.

Finally, in the raw yarn coiler device 100 of the scalable winding angle of one embodiment of the invention, during along with the winding of raw yarn Between the size of winding angle become in basic pattern as shown in Fig. 5 d that the first auxiliary patterns and the second auxiliary patterns determine The size of pattern.

One embodiment of the raw yarn coiler device of the scalable winding angle only belonged to for implementing the present invention described above, this Invention is not limited to above-described embodiment, as claimed in scope claimed in following invention, without departing from this In the case of the main idea of invention, as long as general technical staff of the technical field of the invention just all can carry out various change The scope implemented also has the technical spirit of the present invention.

Claims (8)

1. the raw yarn coiler device of a scalable winding angle, it is characterised in that including:

Traversing portion, has traverse guide and speed controlling portion, and above-mentioned traverse guide is for making the raw yarn to Cylinder feeder Laterally traversing, above-mentioned speed controlling portion is for controlling the translational speed of above-mentioned traverse guide；

Backer roll, is positioned at the bottom in above-mentioned traversing portion, for above-mentioned raw yarn being submitted to bobbin and pressurizeing above-mentioned bobbin； And

Coil holder, is positioned at the bottom of above-mentioned backer roll, and combines with above-mentioned bobbin,

Above-mentioned speed controlling portion controls the translational speed of above-mentioned traverse guide, regulates above-mentioned raw yarn and rolls up from traverse guide It is around in the winding angle of above-mentioned bobbin.

The raw yarn coiler device of scalable winding angle the most according to claim 1, it is characterised in that

If the translational speed that above-mentioned speed controlling portion makes above-mentioned traverse guide accelerates, the most above-mentioned winding angle becomes big, reduces It is wound in the winding width of the raw yarn of above-mentioned bobbin,

If the translational speed that above-mentioned speed controlling portion makes above-mentioned traverse guide is slack-off, the most above-mentioned winding angle diminishes, and increases It is wound in the winding width of the raw yarn of above-mentioned bobbin.

The raw yarn coiler device of scalable winding angle the most according to claim 1, it is characterised in that above-mentioned winding angle It is wound in the time of above-mentioned bobbin according to above-mentioned raw yarn and is differently adjusted, and in basic pattern, combine the first auxiliary Pattern and the second auxiliary patterns determine.

The raw yarn coiler device of scalable winding angle the most according to claim 3, it is characterised in that above-mentioned first auxiliary Help the most above-mentioned winding angle in pattern periodicity ground from 0 increasing to target winding angle, being decreased to 0 again during the very first time Form.

The raw yarn coiler device of scalable winding angle the most according to claim 4, it is characterised in that above-mentioned first auxiliary Pattern is helped to maintain constant time around angle with above-mentioned target volume.

The raw yarn coiler device of scalable winding angle the most according to claim 4, it is characterised in that above-mentioned first auxiliary The cycle helping pattern changes over time.

The raw yarn coiler device of scalable winding angle the most according to claim 4, it is characterised in that above-mentioned first auxiliary The target winding angle helping pattern changes over time.

The raw yarn coiler device of scalable winding angle the most according to claim 3, it is characterised in that above-mentioned second auxiliary Help the shape that the most above-mentioned winding angle of pattern increases to the second winding angle from the first winding angle centered by 0, reduces State.