CN105540334A - Fiber yarn threading technology - Google Patents

Abstract

The invention relates to a fiber yarn threading technology. The threading technology is conducted based on multiple rows of creels. Each row of creel is provided with a plurality of creel layers used for carrying yarn groups. A plurality of columns of yarn groups are placed on each creel layer. A yarn guide porcelain eye plate is arranged above each yarn group. Warp yarn of the same creel layer penetrates the corresponding yarn guide porcelain eye plates in sequence and is then collected to bundle collecting porcelain eye plates of each layer. The warp yarn of all the layers is then collected to the corresponding rows of bundle collecting porcelain eye plates. The warp yarn of all the creel rows is then collected to a main bundle collecting porcelain eye plate. The fiber yarn threading technology is characterized in that porcelain eyes of each yarn guide porcelain eye plate in each column of yarn guide porcelain eye plates on each creel layer are evenly divided into an upper porcelain eye layer and a lower porcelain eye layer or evenly divided into four porcelain eye layers; the sequence numbers of the porcelain eyes in the same column of yarn guide porcelain eye plates in one porcelain eye layer are the reverse sequence numbers of the adjacent porcelain eye layer; the porcelain eyes with the larger numbers are farther from a loom than the porcelain eyes with the smaller numbers; and the number of each column of yarn guide porcelain eye plates of the same creel layer is the same, and the yarn threading method of each column of yarn guide porcelain eye plates of the same creel layer is the same. The fiber yarn threading technology is reasonable in design, simple, practical, even in warp yarn tension and good in fabric quality.

Description

A kind of fiber yarn is entried technique

Technical field

The present invention relates to a kind of fiber yarn to entry technique, fiber yarn when especially relating to more yarn group is entried technique.

Background technology

In fiber weaving cloth is produced, usual needs more through loose thread number, this just means the warp thread yarn group B number that needs are more, and warp thread yarn group B is placed on warp thread creel C usually, but the yarn of One's name is legion group B is due to present position difference, tension difference when creel C end gone to by yarn is larger, cause fibre damage, affect the production of product, be specially as shown in Figure 1, warp thread creel C is made up of many framed bents, places left and right two row or multiple row yarn group B for every layer of every framed bent.As shown in Figure 2 simultaneously, creel C is placed with multilayer yarn group B, the bull warp thread of every one deck is extracted out from yarn group B and is pooled on every layer of boundling porcelain eye plate E after yarn poteye plate D, being pooled to again by the warp thread of every layer of boundling porcelain eye plate E of each layer is often arranged in a row on bundle porcelain eye plate F up and down, the whole warp thread often arranging creel C are pooled to total boundling porcelain eye plate G again, warp thread is drawn toward loom A direction afterwards, and before entering loom A, warp thread need through tension-adjusting gear H and guiding distribution apparatus I(reed or sley point toward contact).

Because warp thread yarn group B head number is numerous, and the crisp and not rub resistance of fiber, thus general tree warp yarn applies tension link with stable tension, damage is caused because tension link very easily damages fiber, therefore general operation increases the tension force of view picture warp thread or sectional-regulated tension force by overall after extracting out from creel C warp thread, but owing to differing greatly from the initial tension of creel C warp thread out, the warp tension obtained after integrally-regulated is still even not, because of uneven on fabric width direction of warp tension in actual production, often cause the problem that the not gentle cloth width of fabric face foaming bends with length direction, the production of this two problems to next process brings hidden danger of quality and cost to improve.

The warp thread of prior art owing to not carrying out suitable tension force control and management before total boundling porcelain eye plate G, warp thread is guided to after on loom A, the total tension force of warp thread within the scope of the fabric width of a certain width of loom A and other is large with the total tension difference of warp thread within the scope of a certain fabric width of width, causes fabric quality to there are serious problems.

Through test and study, the situation of the tension force irregular (indicating the aobvious average tension value higher or lower than periphery warp thread) of warp yarn or several warp thread, cause warp break so long as not overtension (when being pind down by other object as warp thread and almost cannot extract advance out), generally can not cause significant change and the flaw of fabric quality.But the total tension force of the warp thread in a certain fabric width and other is large with the total tension difference of the warp thread in fabric width, will produce fabric quality problem.In conventional art, tension force when often leaving creel C to warp thread does not control, carry out after leaving creel C by warp thread view picture wide full wafer warp tension is regulated or carries out point fabric width several sections be divided into view picture warp thread carry out tension adjustment, but poor effect after regulating: although sectional-regulated rear each intersegmental tension force total value can reach more even, in segmentation, the tension difference in different fabric width interval is still larger, because the excessive fabric width of warp thread is very large, often cannot carry out more multistage segmentation to regulate, easily expect although many segmentations carry out segmenting the method regulated, but the adjustment implementation method that reality is not got better and desirable effect.Yarn simultaneously in same adjustment segmentation is because differing greatly from creel C initial tension out, and after rubbing method adjustment of tonicity, tension force is often just exaggerated, still differs greatly by initial tension affects to a great extent.As shown in Figure 3, conventional art is taken the lead through yarn poteye plate D successively to warp thread, causes the tension variation of warp thread rule to be embodied on cloth width fabric width; The warp thread of creel C front and rear part is worn together respectively, regulate as creel C reinstates a set of jockey pulley near loom A at the yarn one in a interval, the yarn in b interval regulates with another set of jockey pulley, make the yarn tension total value in the yarn in a interval and b interval suitable, but the warp tension larger difference be both in a interval is not still eliminated.

In conventional art, also have and tension difference is reduced to the entry planning and design intention of technique of creel C, but all do not accomplish enough careful and poor effect.As shown in Figure 4, warp thread divides two-layer through every layer of boundling porcelain eye plate E, but does not carry out homogenizing mixing to the warp thread of creel C front and rear part differential tension; In Fig. 5, warp thread divides and two-layerly still makes limit, left and right tension force different through every layer of boundling porcelain eye plate E but plain sequence method of wearing; In Fig. 6, warp thread divide two-layer wear and tension force by preliminary collocation evenly, but left and right two row yarn group B symmetry is entried and is still caused tension force irregular; In Fig. 7, warp thread divides three layers to make the warp thread of One's name is legion to pass boundling porcelain eye plate 5, but warp tension is not reasonably combined.

Summary of the invention

The technical matters that the present invention solves is the above-mentioned defect overcome existing for prior art, and provides a kind of fiber yarn to entry technique.

The present invention solves the problems of the technologies described above adopted technical scheme:

A kind of fiber yarn is entried technique, carry out based on many row's creels, often arrange creel and there is multiple creel layer being used for placing yarn group, each creel layer is placed multiple row yarn group, each yarn group top is provided with a slice yarn poteye plate, the warp thread of same creel layer is pooled to every layer of boundling porcelain eye plate through after yarn poteye plate successively, the warp thread of all layers is pooled to again often arranges in a row bundle porcelain eye plate, the warp thread of all creel rows is pooled to total boundling porcelain eye plate again, it is characterized in that the porcelain eye of each the yarn poteye plate in each the row yarn poteye plate on each creel layer is divided into upper and lower two porcelain eye layers or four porcelain eye layers, the porcelain eye of same row yarn poteye plate is in another adjacent porcelain eye layer reverse sequence numbering of a porcelain eye layer serial number, number the large porcelain eye porcelain eye less than numbering away from loom, each row yarn poteye plate quantity of same creel layer is identical and method of entrying is identical.

Porcelain eye numbering on the yarn poteye plate of the present invention's adjacent creel layer is in symmetric configuration.

Porcelain eye layer of the present invention is two-layer, numbers warp thread corresponding to larger porcelain eye and all passes porcelain eye layer on yarn poteye plate, numbers warp thread corresponding to less porcelain eye through lower porcelain eye layer.

The intersection offset direction of the two porcelain eye layers up and down of the yarn poteye plate of interval of the present invention creel layer is contrary.

The porcelain eye numbering of yarn poteye plate of the present invention is oppositely corresponding with the porcelain eye number of this yarn poteye plate, namely in same row, the porcelain eye number of maximum porcelain eye numbering is 1, the porcelain eye number of second largest porcelain eye numbering is 2, and the porcelain eye number of the third-largest porcelain eye numbering is 3 ... the porcelain eye number of minimum porcelain eye numbering equals a row yarn group quantity of creel layer.Each creel layer of the present invention's each creel row all places two row yarn groups, two row yarn groups are according to odd or even number serial number, the porcelain eye of each yarn poteye plate is divided into upper and lower two porcelain eye layers, the odd numbers porcelain eye of same row yarn poteye plate is numbered at another porcelain eye layer reverse sequence of a porcelain eye layer serial number, the even numbers porcelain eye of same row yarn poteye plate is in another porcelain eye layer reverse sequence of porcelain eye layer serial number numbering, and odd or even number porcelain eye close in same row is configured in contiguous position.

The present invention is reasonable in design, brief and practical, and warp tension is even, and fabric quality is good.

Accompanying drawing explanation

Fig. 1 is the schematic top plan view of fiber yarn braiding apparatus.

Fig. 2 is the part sectional view of fiber yarn braiding apparatus.

Fig. 3 is J-J semi-sictional view and the tension variation schematic diagram of Fig. 2, X-Tensity size in figure, and Y-loom width is followed successively by the 4th, the 3rd, second, first creel layer from top to bottom.

Fig. 4 is the first mode schematic diagram of entrying of prior art every layer boundling porcelain eye plate.

Fig. 5 is that the second of prior art every layer boundling porcelain eye plate is entried mode schematic diagram.

Fig. 6 is the third mode schematic diagram of entrying of prior art every layer boundling porcelain eye plate.

Fig. 7 is the 4th kind of mode schematic diagram of entrying of prior art every layer boundling porcelain eye plate.

Fig. 8 is the embodiment of the present invention creel when being four layers every one deck overlook comparison diagram, be the 4th layer, third layer, the second layer, ground floor from top to bottom successively.

Fig. 9 is the effect schematic top plan view of entrying of the embodiment of the present invention, and creel is five row four layers, and every creel layer all has two row yarn groups.

Figure 10 entrys schematic diagram in the first creel cross section of the embodiment of the present invention.

Figure 11 entrys schematic diagram in embodiment of the present invention the second creel cross section.

Figure 12 entrys schematic diagram in the third creel cross section of the embodiment of the present invention.

Figure 13 is that the partial enlargement of Fig. 8 the 4th creel layer rotates schematic diagram.

Figure 14 is that the partial enlargement of Fig. 8 the 3rd creel layer rotates schematic diagram.

Figure 15 is that the partial enlargement of Fig. 8 second creel layer rotates schematic diagram.

Figure 16 is that the partial enlargement of Fig. 8 first creel layer rotates schematic diagram.

Detailed description of the invention

See Fig. 1 ~ Figure 16, the present invention is by the warp thread in region before and after reasonably combined creel C, the application initial tension of technique when making warp thread leave creel C of reasonably entrying all embodies consistent tension force in the segmentation of fabric each fabric width, to solve the fabric problem because the irregular problem of warp tension causes more up hill and dale, in figure, numeral is yarn group numbering, the namely numbering of yarn poteye plate and porcelain eye.

The creel of the present embodiment and the similar of conventional art, as Fig. 1, shown in Fig. 2, warp thread creel C is made up of many framed bents, often arranging creel C has multiple creel layer can roll into a ball B by placement of multiple layers warp thread yarn, each creel layer is placed left and right two row or multiple row yarn group B, the yarn poteye plate D having a slice vertically to place above each warp thread yarn group B of creel layer is for passing warp thread, the warp thread of same creel layer is pooled to every layer of boundling porcelain eye plate E through after yarn poteye plate D successively, the warp thread of all layers is pooled to again often arranges in a row bundle porcelain eye plate F, the warp thread of all creel rows is pooled to total boundling porcelain eye plate G again, whole warp thread enters loom A woven into fabric after tension-adjusting gear H and guiding distribution apparatus I density distribute equally adjustment.

The present embodiment farthest mixes homogenizing to reach the even tension on homogenizing fabric width between different section by the warp thread different to the tension force before and after creel C.The present invention introduces the concept that warp thread serialization number and tension force quantize, as shown in Figure 2, by low order end in creel C every layer (i.e. creel layer) figure near loom A two warp thread (from left and right two row warp thread yarn group) numbering be labeled as warp thread 1, warp thread 2 is labeled as successively toward the warp thread away from the direction of loom A, 3, 4 ... 30, yarn poteye plate D sync mark yarn poteye plate D-1 above each yarn group B, D-2, D-3 ... D-30, because each yarn poteye plate D need be passed successively when every root warp thread passes creel C, how warp thread is every just increases a tension force through a slice yarn poteye plate D, so warp thread pass creel C after initial tension at every layer of boundling porcelain eye plate E place roll into a ball B present position with yarn that is warp thread is numbered almost completely corresponding, if warp thread 1 is because counting 1(part through 1 its initial tension of yarn poteye plate D), warp thread 2 is because counting 2(part through 2 its initial tensions of yarn poteye plate D), warp thread 3 is because counting 3(part through 3 its initial tensions of yarn poteye plate D), the like, creel C is about 30(part from its initial tension of warp thread 30 of loom A distalmost end).

The yarn poteye plate D that Fig. 8 schematically illustrates on every layer of four layers of creel C is arranged and technique of entrying.Yarn poteye plate D is connected to vertically on creel C and rolls into a ball above B at yarn as seen from Figure 2, porose on yarn poteye plate D, hole there is porcelain eye, warp thread is (completely corresponding with warp thread through porcelain eye, through yarn number and porcelain eye number, but write on before porcelain eye to distinguish, warp thread N is namely through the N# porcelain eye of yarn poteye plate D-N).Conveniently express in Fig. 8 and originally vertical yarn poteye plate D is illustrated as the appearance kept flat after certain horizontal rotational shaft, above each porcelain eye, (being right after rotating and expressing in Fig. 8) has numeral number to allow which root warp thread can pass this porcelain eye to express this porcelain eye, the yarn poteye plate D-30 that can see creel C distalmost end there are two porcelain eyes, two warp thread 30 are each passed through this yarn poteye plate D-30, (Fig. 8 right) warp thread 30 is successively through the 30# porcelain eye of yarn poteye plate D-29 more forward, the 30# porcelain eye of yarn poteye plate D-28, the 30# porcelain eye of yarn poteye plate D-27 ... the 30# porcelain eye of yarn poteye plate D-1, again through the 30# porcelain eye on every layer of boundling porcelain eye plate E, often arrange in a row the 30# porcelain eye on bundle porcelain eye plate F.Same warp thread 29 is successively through the 29# porcelain eye of each yarn poteye plate D-29.Again successively by warp thread 28, warp thread 27, warp thread 26 ... warp thread 16, warp thread 15 ... warp thread 1 is successively through the porcelain eye of the reference numeral of yarn poteye plate D.From warp thread 15, warp thread 15, warp thread 14, warp thread 13 ... warp thread 1 is through the porcelain eye of a row below yarn poteye plate D.

The porcelain eye of Fig. 8 creel C yarn poteye plate D is divided into two-layer (porcelain eye layer, lower same), every porcelain eye layer arranges the half (15) of total yarn group's number (if Fig. 2 is 30 warp thread) in creel C length, number consecutively, number as upper strata porcelain eye (from 30# porcelain eye to 16# porcelain eye) is turned left from the right side, lower floor's porcelain eye (from 15# porcelain eye to 1# porcelain eye) is successively numbered from left to right, guarantee that maximum numbering porcelain eye and lowest number porcelain eye are close two-layer up and down, also ensure that upper and lower two-layer porcelain eye two numbering sums and adjacent upper and lower two-layer porcelain eye two numbering sums are consistent, the numbering sum this ensures that thering every layer of other upper and lower two warp thread of boundling porcelain eye plate E any position bilevel two warp thread and both sides is also identical, namely bilevel two warp tensions of any position and other bilevel two warp tensions of both sides basically identical.This ensure that equally every layer of boundling porcelain eye plate E place same width interval as up and down the tension force total value of totally 10 warp thread and both sides other totally 10 warp tension total values are also basically identical up and down.This ensure that equally same width interval as up and down the tension force total value of totally 100 warp thread and the tension force total value of other arbitrary neighborhood or non-conterminous 100 warp thread also basically identical.This is reflected on the fabric width of fabric, and the warp tension being exactly arbitrary fabric width is basically identical with the tension force of other identical fabric width local arbitrarily.

Number the warp thread that namely larger warp thread be positioned at away from loom A as seen from Figure 2 and all pass yarn poteye plate D last layer porcelain eye, number less warp thread through lower one deck porcelain eye, can prevent the interference between levels warp thread from tangling.Each root warp thread is always constant through position during each yarn poteye plate D residing for porcelain eye, namely warp thread almost straight ahead to reduce warp thread initial tension as far as possible, in such practical operation, warp thread, porcelain eye plate, porcelain eye all also can efficiently inerrably be entried without the need to number-mark, effectively to reduce in conventional art the path of easily entrying because not making rational planning for porcelain eye plate and make mistakes and cause additional tension and warp thread to be mutually wound around problem.The path all fours of entrying of the left and right two row yarn group B of same layer.

From Fig. 8 creel C third layer, compared with the 4th layer, symmetrical exchange (configuration) has been done in the porcelain eye numbering left and right on yarn poteye plate D.The warp thread 1 of warp thread 15, warp thread 16 and creel C the 4th layer that such warp tension is comparatively moderate, warp thread 30 are positioned at the almost same position of fabric width, to reduce warp thread 1, warp thread 30 tension difference further greatly to the adverse effect that the local of very little fabric width may be brought.

Fig. 8 creel C second layer entry path and the 4th layer similar, ground floor and third layer similar, unique change be the intersection offset direction and the 4th of the upper and lower two-layer porcelain eye of the yarn poteye plate D of the second layer arrange contrary, first row is also like this relative to the 3rd row, by closely when can avoid like this guiding on loom sley with numbering that is identical two warp thread of tension force.Certainly as previously described, the Tensity size of several warp thread does not embody larger negative effect, even if several identical numbering warp thread are adjacent also can not bring large problem, doing like this is for close to idealized, and effect is also very fine.

It is all identical that method worn by all warp thread often arranging creel C.

Fig. 9 is the schematic diagram after overall creel C entrys by the present embodiment.The position that warp thread passes on every layer of boundling porcelain eye plate E is identical with through every sheet yarn poteye plate D, 4 layers of warp thread are pooled to the porcelain eye position passed when often arranging in a row bundle porcelain eye plate F to be continued to remain unchanged, and also continues to remain unchanged in the porcelain eye position passed when the warp thread of 5 row's yarn groups is pooled to total boundling porcelain eye plate G.So in fig .9 on total boundling porcelain eye plate G through warp thread, many warp tension total values in the 1cm wide region of optional position are substantially equal with adjacent or in non-conterminous 1cm wide region many warp tension total values, many warp tension total values in optional position 1 " many warp tension total values in wide region with adjacent or non-conterminous 1 " wide region are substantially equal, many warp tension total values in the 10cm wide region of optional position are substantially equal with adjacent or in non-conterminous 10cm wide region many warp tension total values, substantially mixed from creel warp tension out like this, even if carried out tension adjustment before entering loom below, also be on the warp thread basis of a uniform tension, the uniform balance of the final warp tension of easy realization.These warp thread are finally penetrated loom successively, even if accidentally generation minority warp yarn position is misdrawed and is not also affected overall homogeneity, ensure that the total tension force of warp thread in any fabric width of fabric is almost consistent with the total tension force of other warp thread with fabric width, these two fabric widths can be adjacent, non-conterminous or juxtaposition.

As seen from Figure 9, in creel C same layer, any row's left column warp thread is identical with the method for wearing of the right row warp thread of any row, warp thread between this two rows creel C is also equalization of complementary relation in numbering and tension value, thus no matter creel C is made up of how many row, and the warp thread often between row embodies seamless link in Tension Distribution.

As shown in Figure 10, entry schematic diagram in creel C cross section of the present invention, also the J-J of Fig. 2 is equivalent to cutaway view, first through the 11# porcelain eye of yarn poteye plate D-11 after two, the left and right warp thread 11 of each layer rolls into a ball extraction from warp thread yarn up and down, other 12#--30# porcelain eye is occupied by 12#-30# warp thread, therefore on this yarn poteye plate D-11 without any room, other yarn poteye plate D is also like this, prevents mistake from wearing.

The present embodiment creel 5 is arranged, often to arrange every layer of several 30 of yarn group often arranged be citing for 4 layers and creel, and other any row, the number of plies all can use the present invention.

Present patent application is compared with background technology, position residing for warp thread yarn is rolled into a ball, porcelain eye numbering residing for warp thread route via, warp tension all to quantize with figure notation, to be arranged in pairs or groups large for tension value mutually with little warp thread thus the tension force obtained on unit width is basically identical by the mode that yarn poteye plate arranged double-deck yarn poteye, again by the identical set of left and right two row warp thread on creel same layer, the arranged crosswise of levels warp thread, identical between different row's creel wears these measures of method, further ensure the consistent also distributed uniform of warp tension in any interval on whole fabric width, as long as the total uniform tension in order of warp thread of the warp thread choosing two or more just radical same with other optional position.

The method is simple, effectively prevents the yarn of easily misdrawing of orthodox method from causing winding strand between frequent generation warp thread break and increase the situations such as additional tension.The method is not regulable control view picture or the framing tension force of orthodox method, but utilizes and identify that the differential tension of warp yarn distributes and controls tension force, is a kind of decomposition in detail, orientation arrangement, full and uniform method.

As shown in figure 11, the warp thread of same for same layer row is divided into 4 layers through yarn poteye plate, warp tension " can be stirred " more even, namely the porcelain eye layer of each yarn poteye plate D is four layers, and the more longer creel of single-row yarn group number is suitable for.

As shown in figure 12, each creel layer of each creel row all places two row yarn groups, two row yarn groups are according to odd or even number serial number, the porcelain eye of each yarn poteye plate D is divided into upper and lower two porcelain eye layers, the odd numbers porcelain eye of same row yarn poteye plate is numbered at another porcelain eye layer reverse sequence of a porcelain eye layer serial number, the even numbers porcelain eye of same row yarn poteye plate is in another porcelain eye layer reverse sequence of porcelain eye layer serial number numbering, and odd or even number porcelain eye close in same row is configured in contiguous position.The warp thread of same row is divided into the two parts being numbered Dan Shuan arrange, can obtain evenly warp thread distribute.

Simple deformation or the equivalence of every design concept of the present invention are replaced, and should think and fall into protection scope of the present invention.

Claims (6)

1. a fiber yarn is entried technique, carry out based on many row's creels, often arrange creel and there is multiple creel layer being used for placing yarn group, each creel layer is placed multiple row yarn group, each yarn group top is provided with a slice yarn poteye plate, the warp thread of same creel layer is pooled to every layer of boundling porcelain eye plate through after yarn poteye plate successively, the warp thread of all layers is pooled to again often arranges in a row bundle porcelain eye plate, the warp thread of all creel rows is pooled to total boundling porcelain eye plate again, it is characterized in that the porcelain eye of each the yarn poteye plate in each the row yarn poteye plate on each creel layer is divided into upper and lower two porcelain eye layers or four porcelain eye layers, the porcelain eye of same row yarn poteye plate is in another adjacent porcelain eye layer reverse sequence numbering of a porcelain eye layer serial number, number the large porcelain eye porcelain eye less than numbering away from loom, each row yarn poteye plate quantity of same creel layer is identical and method of entrying is identical.

2. fiber yarn according to claim 1 is entried technique, it is characterized in that: the porcelain eye numbering on the yarn poteye plate of adjacent creel layer is in symmetric configuration.

3. fiber yarn according to claim 1 and 2 is entried technique, it is characterized in that: described porcelain eye layer is two-layer, numbers warp thread corresponding to larger porcelain eye and all pass porcelain eye layer on yarn poteye plate, numbers warp thread corresponding to less porcelain eye through lower porcelain eye layer.

4. fiber yarn according to claim 1 and 2 is entried technique, it is characterized in that: the intersection offset direction of the two porcelain eye layers up and down of the yarn poteye plate of interval creel layer is contrary.

5. fiber yarn according to claim 1 and 2 is entried technique, it is characterized in that: the porcelain eye numbering of described yarn poteye plate is oppositely corresponding with the porcelain eye number of this yarn poteye plate.

6. fiber yarn according to claim 1 and 2 is entried technique, it is characterized in that: each creel layer of each creel row all places two row yarn groups, two row yarn groups are according to odd or even number serial number, the porcelain eye of each yarn poteye plate is divided into upper and lower two porcelain eye layers, the odd numbers porcelain eye of same row yarn poteye plate is numbered at another porcelain eye layer reverse sequence of a porcelain eye layer serial number, the even numbers porcelain eye of same row yarn poteye plate is numbered at another porcelain eye layer reverse sequence of a porcelain eye layer serial number, odd or even number porcelain eye close in same row is configured in contiguous position.