RU2478148C1 - Method to produce fabrics of crepe weaves with identical repeats - Google Patents

Abstract

FIELD: textile, paper.

SUBSTANCE: in the proposed method for production of fabrics of crepe weaves of identical repeats, consisting in iteration addition on the area of the repeat R×R threads, filled with only weft or only warp overlaps numbered bottom-up, a portion of R warp or weft single overlaps with numbers from one-dimensional arrays generated for each iteration from lists of possible numbers of added single overlaps representing random shifts of integers within [1, 2, …, R²], until specified values of parameters of produced crepe weaves are achieved. During each iteration single overlaps are added according to the main law of weaves of the main class, when one single overlap is permitted on each thread of both systems.

EFFECT: creation of new crepe weaves, providing for achievement of a crepe fine-grained surface of fabric with absence of pattern rhythmicity both in the entire area of repeat and in its separate sections, control and prevention of long horizontal and vertical planks of identical weaves in process of production of a crepe weave.

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Description

The invention relates to the production of textile materials and for the manufacture of crepe weave fabrics produced on looms from ordinary twist yarn.

The purpose of crepe weaves of fabric belonging to the class of fine-knitted, combined subclass is to obtain a fine-grained crepe surface of the fabric without alternating use in the weft of fabric plain weaving of threads of increased crepe twist left and right.

A known method of obtaining crepe weave fabrics by combining two or more weaves, when the first weave is constructed on the area of rapport R _o × R of _the yarns found as the smallest common multiple of the repeat webs of the combined initial weaves, independently, the second, third and so on weaves are constructed, moreover when combining the main overlap of the first and subsequent weaves, either leave the main overlap, implementing the principle of combining-addition, or replace it with the weft one - the principle of combining-subtraction, getting two different crepe weaves [Druzhinskaya O.I. Development of automated methods for constructing filling patterns of fabrics of combined weaves // The dissertation for the competition. degree of candidate of technical sciences - M.: MSTU. A.N. Kosygina, 2007, p. 52].

There is also a method of obtaining crepe weave fabrics by combining two or more weaves with the alternate use of the principles of combining-addition and combining-subtraction on separate threads of rapport with various alternations of both principles that can be set [Patent 2374368 of the Russian Federation, IPC ⁶ D03D 23/00. A method of obtaining crepe weave fabrics / Maletskaya S.V., Maletsky V.V .; Applicant and patent holder State educational institution of higher professional education “Ulyanovsk State Technical University”. No. 2008102914/12; declared 01/25/2008; publ. 11/27/2009, - 7 pp.: 4 ill.].

An analysis of the method of combining two or more weaves adopted in analogues shows that it is a method of adding the main overlaps of the second, third, and so on weaves to the initial first weave on the area of the calculated rapport R _o × R _{for the} threads.

The prototype adopted a method of obtaining crepe weave fabrics by adding to a given weave built on the area of the accepted R _o × R pattern _for threads, main or weft floors arbitrarily or according to some law [Martynova A.A., Slostina G.L., Vlasova ON. The structure and design of fabrics. - M.: RIO MGTA them. A.N. Kosygina, 1999, p. 89].

The disadvantages of analogues and prototype is that adding to the initial weave constructed on the R _o × R rapport area of _the threads arbitrarily or according to some law of the main or weft overlap does not always make it possible to obtain a fine-grained surface of the fabric, in most cases the crepe weave obtained on individual sections of the rapport preserves the patterns of initial weaving, leading to the appearance of rhythmic patterns, the addition of an excessive number of overlaps leads to the appearance of unacceptably long stems ny and weft flooring, there is no way to control the maximum and average lengths of the main and weft flooring during the construction of weaving.

The technical result of the proposed method for producing crepe weave fabrics is to expand the assortment of fabrics by creating new crepe weaves that provide crepe fine-grained fabric surface with no rhythm in the pattern both over the entire rapport area and its individual sections, and it is unacceptable to control and prevent the appearance of crepe weave long horizontal and vertical floorings of the same floor.

The specified technical result is achieved by the fact that in the method of obtaining crepe weaves with the same rapport, which consists in adding, on a known area, the rapport R _o × R of _the threads of the main or weft floors according to a certain law, according to the invention, the values of the rapports are the same and equal to R, take the maximum permissible values of flooring of the same name floors on the basis of f _{cr.o max} and weft f _{cr.u max} , limits of the average length of floors on the basis of f _cr.o and weft f _cr.u , limits of the coefficient of connectedness Networks based on K _cr. and weft K _cr. , fill the weave _pattern with one weft or one main flooring, sequentially bottom-up and left-to-right numbers all overlapping patterns of the future crepe weave, add a portion iteratively (by repeating a series of actions) from R individual floors with numbers from one-dimensional arrays generated for each iteration p lists of possible numbers of single crepe weave floors, which are random permutations of integers within [1, 2 , ..., R ² ], and at each iteration, single overlappings are added to opposite decking according to the main law of main class weaves, when each thread of both systems has one single overlap, up to R single overlaps are applied in one iteration, after the first iteration get an intermediate weave, which is a rejected satin (or satin) with variable shifts; starting from the second iteration after adding single floors, the actual maximum length of horizontal and vertical floorings of the same floor is determined, in the case of crepe weaving with the lengths of vertical and horizontal floorings of the same floor not exceeding the maximum possible, the sum of all intersections based on Σt _o and weft Σt _y , the average number of intersections per thread on the basis of t _о and weft t _у , average lengths of floors on the basis of f _о and weft f _y , the coefficients of connectedness of weaving on the bases e K _according to weft K _poo according to known dependencies, compare the actual values of the parameters of the weave with the given ones, analyze the crepe weave obtained, make a decision on the continuation or termination of the addition of single floors; when performing the construction of crepe fabric weaves by iteratively adding portions of weft overlaps to the main floors on the R × R rapport area of the threads, the whole sequence of actions is repeated, weaves that are negative with respect to the weaves obtained by adding the main floors to the weft floors, while the values of the weave parameters are negatives are equal to the values of the parameters of interweaving obtained by adding basic overlap.

The indicated technical result — the creation of new crepe weaves that provide a fine-grained fabric surface with no rhythm in the pattern and excessively long vertical and horizontal floorings of the same name — is achieved, on the one hand, by using random permutations of integer numbers in determining the numbers of the added portion R of random overlappings range [1, 2, ..., R ^2], obtained by using a table or software sensor, on the other hand, due to the portionwise addition of R odi intramural overlap to the deck of the opposite sign of the fundamental law of stitches main class and only if the added overlap does not cause the same name vertical or horizontal deck excessive length. In addition, after receiving the next version of an acceptable crepe weave, they calculate and evaluate its parameters and make an informed decision on whether to continue or stop adding overlap.

Figure 1 shows the crepe weave obtained by the prototype method by adding the main floors: 1-a) adding to the plain weave on the rapport area 8 × 8 threads of the main floors according to the law of irregular four-strand sateen, built on the weaving of odd warp threads with even weft threads ; 1-6) by adding 8 × 8 threads to the plain weave on the rapport area, constructed from the second rapport thread, of the main floors according to the sateen law 8/3; figure 2 presents the sequence of obtaining variants of crepe weaves according to the claimed method by adding a single main overlap to the weft flooring on the area of the rapport of 8 × 8 threads: 2-a) the area of the rapport of 8 × 8 threads filled with long weft floors; 2-b) numbers of overlappings of rapport; 2-c) weaving rejected satin obtained after the first iteration; 2-d-2-e) intermediate crepe weaves that do not satisfy the given conditions; 2-g-2-i) crepe weaves that satisfy specified conditions; figure 3 presents the sequence of obtaining options for crepe weaves according to the claimed method by adding a single weft overlap to the main flooring on the area of the rapport of 8 × 8 threads: 3-a) the area of the rapport of 8 × 8 threads filled with long main floors; 3-b) numbers of overlappings of rapport; 3-in-3-i) shows weaves that are negative with respect to the weaves shown in FIG. 2-in-2-i.

An example of the practical implementation of the method

The possible crepe weave fabric options are obtained with rapport on the warp and weft equal to 8 × 8 threads, the experience of obtaining crepe weave fabrics is preliminary summarized, table 1 shows the average length of the ceilings on the basis of f _о , weft f _у , the maximum length of decking overlaps of the same name on the basis of f _omax , for weft f _уmax , the coefficients of connectedness of weaving on the basis of K _for and for weft K _PU , calculated by known dependencies, for two crepes obtained by the method of the prototype (figure 1):

Table 1 Crepe number f _o f _y f _omax f _max K _by K _pu Crepe figure 1-a 1,1429 1,1429 3 3 0.8929 0.8929 Crepe figure 1-b 1,3333 1,3333 3 3 0.7840 0.7840

Analyzing the crepe weave parameters presented in Table 1, we accept the limits of the required value of the average length of the floors on the basis of f _cr.o = [1.1 ... 2.0] and the weft f _cr.u = [1.1 ... 2.0 ], the values of the maximum length of the ceilings on the basis of f _cr.max and on the weft f _cr.max equal to three floors, the limits of the values of the coefficients of the connectedness of the weave on the base and weft equal to K _cr.po = K _cr.po = [0.6 ... 0.8], fill the rapport of 8 × 8 threads with weft floors (Fig.2-a), sequentially, as shown in Fig.2-b, from bottom to top and from left to right, number all overlappings of the repeat b of the crepe weave, generate a one-dimensional array of p possible numbers of the main overlap of the crepe weave, which is a random permutation of integers within [1, 2, ..., 64], using the p = randperm (n) function in the MATLAB programming environment:

apply the main overlap to the weft overlap of the rapport with the numbers from the first array of possible numbers of the main overlap marked with a circle, observing the basic law of constructing weaves of the main class - only one single main overlap is applied to each warp and weft, up to 8 are applied in one iteration overlap, the obtained intermediate weave, shown in black fill in figure 2-c, is a rejected eight-dimensional satin with variable shifts; perform the second iteration: generate a second one-dimensional array of p possible numbers of single main crepe weave floors:

tilted to the left by hatching, the main overlap is applied to the weft overlap rapport with the numbers from the second array of possible numbers of the main overlays marked with a circle, while also observing the main law for constructing the main class weaves, analyzing the obtained intermediate crepe weave (Fig. 2-d), we see that the maximum length of the main decking f _omax equal to two floors, does not exceed the specified maximum length of weft decking f _umax is six floors, exceeds a preset that svidetelst uet the need to continue to add major overlaps in the area of rapport; perform the third iteration: generate a third array p of possible numbers of single main crepe weave floors:

by horizontal shading, the main overlaps are applied to the weft overlaps of the rapport with the numbers marked with a circle, also observing the main law for constructing the main class weaves, the obtained crepe weave is shown in Fig. 2-d, analyzing which we see that the maximum length of the main floorings f _Оmax is three overlaps and does not exceed the specified, the maximum length of the weft flooring f _уmax equal to five floors, exceeds the specified, continue to add the main floors to the rapport area; perform the fourth iteration: generate a fourth array of p possible numbers of single main crepe weave floors:

by vertical shading, the main overlays are applied to the weft overlaps of the rapport with the numbers marked with a circle, also observing the basic law of constructing the main class weaves, it is possible to apply only six of the required eight overlaps, the numbers of the remaining two overlaps from the fourth array coincided with the overlaps already existing in the rapport area, intermediate crepe weaving is shown in figure 2-e, analyzing it we see that the maximum length of the main flooring f _оmax is equal to three floors and not increases the specified, the maximum length of the weft flooring f _уmax , equal to five floors, exceeds the specified, continue adding the main floors to the rapport plane; perform the fifth iteration: generate a fifth array of p possible numbers of single main crepe weave floors:

four main overlappings are applied with a cross-hatching on the rapport area with the numbers marked with a circle, while observing the basic law of constructing the main class weaves, and after applying the overlap No. 10 marked with a square, we see that the maximum lengths of both the main f _max and weft f _{max floors} are equal three floors, do not exceed the specified ones, the obtained acceptable crepe weave is presented in Fig.2-g, find the sum of all intersections based on Σt _o = 40 and weft Σt _y = 42, calculate the average number of intersections per thread on the basis of t _o and weft t _y , the average lengths of overlap on the basis of f _o and weft f _y , the coefficients of connectedness of weaving on the basis of K _on and on the weft K _pu according to known dependencies, table 2 shows the parameters of this crepe weave, compare the actual values of the parameters of the weave with the specified ones, decide to stop or continue adding the main floors, when receiving other crepe weave options, continue to add the main floors to the rapport area; after applying the overlap No. 39, a second version of an acceptable crepe weave is obtained, it is presented in Fig.2-h, its parameters are calculated; after applying overlap No. 16, a third version of an acceptable crepe weave is obtained, it is presented in figure 2-i, the parameters of the obtained crepe weaves are given in table 2.

table 2 Crepe number f _o f _y f _omax f _max K _by K _pu Crepe fig. 2-g 1,6000 1,5238 3 3 0.6679 0.6898 Crepe 3-g Crepe fig.2-z 1,6000 1,6000 3 3 0.6627 0.6627 Crepe 3-z Crepe Fig. 2 1,5238 1.6842 3 3 0.6846 0.6408 Crepe 3

The analysis of the crepe weaves shows that three fabric options satisfy the given conditions, the rhythm of the patterns is completely absent in all three weaves, the maximum length of the main and weft floorings along both yarn systems does not exceed the specified one and is equal to 3 overlaps.In the process of constructing acceptable weaves, their parameters are controlled and have the opportunity to make an informed decision to stop building crepe weave options. Upon receipt of crepe weave by portionwise adding up to 8 weft overlaps to the main floors shown in Fig. 3-a, on a rapport area of 8x8 threads, with the overlap numbers shown in Fig. 3-b, with the same generated sequences of possible numbers added single overlappings, the entire sequence of actions is repeated, weaves are obtained that are negative in relation to those considered. An example of obtaining crepe weaves by gradually adding single weft ceilings to the main floorings is shown in FIG. 3, according to the conditions of the considered example, three types of crepe weaves shown in FIGS. 3-g-3 are also received, which are negatives of crepe weaves shown in FIG. .2-g-2-i, the values of the parameters of interweaving-negatives are equal to the values of the parameters of interweaving obtained by portionwise adding single main floors to the weft flooring.

Claims (1)

A method of obtaining crepe weaves with the same rapport, which consists in adding yarn of the main or weft floors according to a certain law on a known rapport area R _o × R _y , characterized in that the values of the rapports are assumed to be the same and equal to R, accept the maximum allowable floorings of the same floors on the basis of f _cr.omax and weft f _cr.ymax , the limits of the average length of the floors on the basis of f _cr.o and the weft f _cr.y , the limits of the coefficient of connectedness of weaving on the basis of K _cr.po and weft K _cr.pu , fill the rapport interweaving with one weft or one main flooring, sequentially bottom-up and left-to-right numbers all overlappings of the rapport of the future crepe weaving, iteratively (by repeated execution of a series of actions) add a portion of R individual overlappings with numbers from one-dimensional arrays p lists of possible numbers generated for each iteration single overlap crepe weave representing random permutation of the integers in the range [1, 2, ..., R ^2], wherein at each iteration single overlap ext they are poured to the opposite sign according to the main law of main class weaves, when one single overlap is located on each thread of both systems, up to R single overlaps are applied in just one iteration, after the first iteration, an intermediate weave is obtained, which is a rejected satin (or atlas) with variable shifts; starting from the second iteration after adding single floors, the actual maximum length of horizontal and vertical floorings of the same floor is determined, in the case of crepe weaving with the lengths of vertical and horizontal floorings of the same floor not exceeding the maximum possible, the sum of all intersections based on Σt _o and weft Σt _y , the average number of intersections per thread on the basis of t _o and weft t _y , the average lengths of floors on the basis of f _o and weft f _y , the coefficients of weave connectivity on the basis of K _according to the weft K _p according to known dependencies, the actual values of the parameters of the weave are compared with the given ones, the crepe weave obtained is analyzed, the decision is made to continue or stop adding single overlaps; when performing the construction of crepe fabric weaves by iteratively adding portions of weft overlaps to the main floors on the R × R rapport area of the threads, the whole sequence of actions is repeated, weaves that are negative with respect to the weaves obtained by adding the main floors to the weft floors, while the values of the weave parameters are negatives are equal to the values of the parameters of interweaving obtained by adding basic overlap.

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