RU2619728C2 - Method for determining the structure changes in knitted fabric with spatial stretching - Google Patents

Abstract

FIELD: textile, paper.

SUBSTANCE: evaluation criterion used is the change of area of holes in the knitted fabric after it is spatially stretched within the operational load limits. The method is based on the application of principles of automated optical image recognition. The technical result of the proposed invention is a quantitative measure: the coefficient of changing structure of knitted fabric with spatial tension that characterizes the actual process of deformation of the fabric on the human figure.

EFFECT: method for quantifying changes in the structure of knitted fabric with spatial tension.

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Description

The invention relates to textile materials science and is intended for an objective assessment of the properties of knitted fabrics for clothes in the textile and light industries, and can also be used for standardization, during research, periodic and certification tests.

An object of the invention is to develop a method for the quantitative assessment of changes in the structure of a knitted fabric with spatial tension. As an evaluation criterion, the change in the area of the through holes of the knitted fabric after spatial stretching within the operating load is used. The method is based on the application of the principles of automated recognition of optical images.

With spatial tension, the deformation is directed perpendicular to the surface and distributed over a certain area, which causes the product (sample) to stretch simultaneously in many directions. A similar character of stretching occurs in finished products from fabric or knitwear, for example, where they fit the joints of a person (elbows, knees, shoulders and other parts of the figure), as well as on supporting sites when using negative values of constructive increments. In this case, there may be a change in the appearance of the fabric, surface texture and weave pattern. With significant deformations, a visible distortion of the weave pattern is possible, which leads to a decrease in the aesthetic level of the product and is visually perceived as a defect.

Data on changes in the pattern and surface topography can be used to assess the aesthetic indicators of knitwear. Aesthetic indicators occupy a special place in assessing the quality of clothing as a subject of personal consumption. The lack of appropriate aesthetic indicators makes clothes essentially a useless thing, since it ceases to fulfill one of the main target functions - the satisfaction of specifically human aesthetic needs [1].

Currently, there is no quantitative characteristic for assessing changes in the structure of a knitted fabric under spatial tension. Closest to the proposed method are studies to assess changes in the relief of the surface of the web under tension [1], carried out by an expert method. In the method under consideration, a descriptive visual sensation of an expert is used as a criterion for assessing changes in the pattern and surface topography when the web is stretched in the product. In this case, the reliability of the obtained quality assessments largely depends on how perfect the conditions for conducting the expert survey are. Visual assessment is quite subjective and is not characterized by a quantitative, but a descriptive assessment, which reduces the objectivity of the results.

There is a method for determining the deformation properties of knitwear during spatial deformation [2], which digitally photographs the working area of the fabric before deformation, then deforms the working section of the fabric using a removable surface in the form of a hemisphere, after deformation of the fabric, the removable spherical surface is removed and digital photography is repeated working area. Assessment of the deformation properties of paintings in spatial tension is carried out as a result of optical-electronic image processing.

A distinctive feature of this method [2] is that repeated photographing of the working area is carried out after removal of the load, which does not correspond to the conditions of the actual operation of the products, and does not make it possible to study the properties of the canvas under the action of the load. This method [2] allows you to evaluate only the deformation properties, the characteristics of which include elongation and residual deformation after stretching, but does not provide information about the change in the appearance of the fabric under tension, necessary to assess the aesthetic properties of knitted products.

A known method of structural analysis of knitted fabrics [3], in which the image is processed using software, with the ability to edit the images to determine changes in the structure of knitted fabrics in equilibrium and / or stress-strain state. However, in the considered method, the structural characteristics of knitted fabrics are used such as the height of the buttonhole row, the loop step, the length of the thread in the loop and other known characteristics, which are subsequently taken into account when determining the design parameters of highly elastic clothing. A feature of this technique is that the nature of the deformation of knitted fabrics is linear, which does not correspond to the actual conditions of wear of the products. In addition, these structural characteristics do not allow obtaining information for assessing aesthetic properties, namely, the apparent distortion of the weave pattern and surface texture.

The technical result of the claimed invention is the proposed quantitative indicator of changes in the structure of a knitted fabric with spatial tension, characterizing the actual process of deformation of the fabric on the figure of a person.

The method for determining changes in the structure of a knitted fabric during spatial tension is implemented using the device represented by the drawings:

FIG. 1 - Device for determining changes in the structure (appearance) of knitted fabrics with spatial tension;

FIG. 2 - Digital image of the sample (a - before loading; b - after loading);

FIG. 3 - The processed image using the software package graphics editor CorelDRAW (a - before loading, b - after loading).

An example implementation of the method.

The proposed method is carried out on the developed device (Fig. 1) as follows. Sample 1 is clamped in a ring to secure the web 2 and placed on the platform 3 of the rack of the device 4. After this, the sample is taken before loading with a webcam 5, which is mounted on a movable platform 6 under the sample. The illumination of the sample is carried out using the lighting elements 7, which are located on both sides of the webcam. Then the loading element with the base hemisphere 9 is lowered onto the sample along the guide 8, which exposes it to spatial tension. The magnitude of the load can be adjusted using removable loading elements 10. After that, the sample is taken by the webcam after loading.

The distance from the sample to the webcam during shooting in both cases remains the same, since the loading element 9 moves along the guides 11 together with the webcam 5 - this ensures the objectivity of the tests. The data from the webcam is transmitted by the computer, after which the received images are processed using the CorelDRAW graphics editor software package.

Image processing algorithm using the CorelDRAW graphics editor software package:

1. Import images before and after loading into the program environment.

2. Bringing the images to full size, taking into account the parameters of the webcam with which the photograph is taken.

3. Highlighting the central area of each image.

4. Convert central areas to black and white images.

5. Assigning certain values of brightness, contrast and intensity of black and white images to create the greatest color difference between through holes and canvas threads.

6. Finding the values of the area of the through holes in pixels.

Images before and after loading are obtained under the same external conditions. The mass of the load is 6 N, the duration of loading is 10 minutes, according to the standard method [4]. Parameters of graphic transformations during image processing remain constant.

As a quantitative indicator of changes in the structure of a knitted fabric during spatial tension, the coefficient of change in structure is used, determined by the formula:

S ₀ - the total area of the through holes of the canvas before loading;

S ₁ - the total area of the through holes of the canvas after loading.

Design solutions underlying the method of quantitative assessment of changes in the structure of a knitted fabric during spatial tension using the developed device can achieve the following technical results:

- determination of a quantitative indicator of changes in the structure of a knitted fabric with spatial tension;

- approximation of the test conditions to the conditions of the actual operation of knitted products due to the spatial extension of the sample;

- improving the reliability and accuracy of the results through the use of computer technology in the processing of digital images.

As an example in FIG. 2 shows digital images of flax knitted fabric samples before and after loading. In FIG. 3 shows images after computer processing. For a comparative assessment, the central region of the images obtained using the device is used, in which the total area of all through holes in pixels is determined. Table 1 shows the results of a study of the structure of knitted fabrics with spatial tension, the coefficient of change in the structure was calculated by the formula (1).

List of sources used

1. The site of digital educational and methodological materials of VSUES /abc.vvsu.ru/ Designing clothes. Author: Boldovkina OS, editor: Maslennikova S.G.

2. Device for determining the deformation properties of knitted fabrics under tension by a non-destructive method [Text]: US Pat. No. 2456594 dated July 20, 2012, Ros. Federation: 7 G01N 33/36 / Chagina L.L., Smirnova N.A., Voronova E.M., Kiselev A.M .; Applicant and patent holder of the Kostroma state. technol. un-t

3. No. 1 (282) TEXTILE INDUSTRY TECHNOLOGY 2005. Methodology of structural analysis of knitted fabrics. G.P. Starkova, I.A. Sheromrva. UDC 677.66.017.

4. GOST 8847-85. Knitted fabrics. Methods for determination of tensile characteristics and tensile properties at loads less than tensile.

Claims (4)

A method for determining a change in the structure of a knitted fabric under spatial tension, according to which a sample of a knitted fabric is subjected to testing by fixing in a device and performing digital photography, then loading it with a hemispherical load and performing repeated digital photography of the sample, transferring images to a computer screen in real time, image processing using software, characterized in that by changing the area of the through holes of the knitted floor spot in the central zone of the investigated before and after loading factor is calculated fabric structure changes according to the formula:

S ₀ - the total area of the through holes of the canvas before loading; S ₁ - the total area of the through holes of the canvas after loading.

Images