CN113337975B - Chenille carpet pile pattern based on color yarn binary color mixing regulation and control and construction method thereof - Google Patents

Abstract

The invention relates to a chenille carpet pile pattern based on color yarn binary color mixing regulation and control and a construction method thereof, wherein the unevenness of the color yarn distribution on the chenille carpet pile is regulated and controlled through the change of a color yarn combination mode and a combination proportion of multiple primary colors, so that a color matching pattern, a pattern matching and a pattern clipping are generated; the color mixing is different from the addition mixing of color light mixing and the subtraction mixing of color material mixing, the multi-element primary color silk mixing is spatial juxtaposition mixing and is non-uniform mixing, and the chenille pile can present a color matching effect of color separation obscurity, a color separation soft matching effect or a color separation clear clipping effect on the visual effect by regulating and controlling the mixing proportion of the multi-element primary color silk and the color difference, the brightness difference and the saturation difference among the primary color silk; the whole design execution method can effectively improve the construction efficiency of the pile patterns of the chenille carpet.

Description

Chenille carpet pile pattern based on color yarn binary color mixing regulation and control and construction method thereof

Technical Field

The invention relates to a chenille carpet pile pattern based on color yarn binary color mixing regulation and control and a construction method thereof, belonging to the technical field of chenille carpet manufacture.

Background

The chenille carpet is a tufted fabric formed by tufting chenille yarns on base cloth, and is subjected to dyeing, after-treatment, sizing of the tufted fabric and a carpet base material back adhesive, and finally cutting, edge covering and sewing to form the chenille carpet with a specific specification.

The conventional chenille carpet usually adopts conventional polyester low-elasticity length as a pile yarn to spin chenille yarns on a chenille spinning machine, tufting is carried out on a tufting loom to form tufting fabric, then the tufting fabric is dyed at high temperature and high pressure to dye the pile, then the tufting fabric and a carpet base material are back glued, and the chenille carpet with specific specifications is formed after cutting, edge covering and sewing.

In the dyeing process, on one hand, the pile is subjected to high-temperature disperse dyeing to enable the pile to reach a preset color, and on the other hand, the pile is subjected to high-temperature heat treatment to regulate and control the processes of pile shrinkage and untwisting to enable the pile to achieve a stiff, full and soft appearance style. The appearance color, hand feeling and style of the chenille carpet are mainly generated by the color, hand feeling and style of the pile of the chenille carpet. Therefore, the dyeing and finishing process of the pile of the chenille carpet is a key processing technology of the chenille carpet.

In the dyeing and finishing process of the chenille carpet, a large amount of dyes, energy and water are needed to be used, and a large amount of sewage is discharged. Because the traditional printing and dyeing technology causes environmental pollution and energy consumption, the realization of anhydrous dyeing, accurate color matching and digital color matching of the chenille carpet pile is a key common technology which promotes the rapid development of the chenille carpet and is urgently solved. Specifically, the problems to be solved are as follows:

1. in the prior art, the chenille carpet pile obtains serial colors with different hues, lightness and saturation by changing a dyeing formula, but the problems of low color reproduction, large batch color difference, long production period and the like exist.

2. In the prior art, 2 kinds of similar color over-dyeing are adopted to enable the chenille carpet pile to obtain pattern effects with different contrasts, but a process method for realizing the pattern effects of color matching, pattern clipping and the like according to the color difference value is not provided, and the problems of low dyeing reproducibility, large batch color difference, long production period and the like are solved.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a chenille carpet pile pattern based on color yarn binary mixed color regulation and control and a construction method thereof, and the unevenness of the color yarn distribution on the chenille carpet pile is regulated and controlled through the change of the color yarn combination mode and the combination proportion of multi-primary color, so that the color matching pattern, the parquet pattern and the fancy inclusion pattern are generated.

The invention adopts the following technical scheme for solving the technical problems: the invention designs a chenille carpet pile pattern based on color yarn binary mixed color regulation and control and a construction method thereof, wherein the method comprises the following steps:

step A, obtaining a color silk thread by mixing two primary color silk threads based on a preset number of primary color silk threads, constructing a binary color silk thread system, and then entering step B;

b, combining the color values (R) of any two color yarns alpha and beta based on the chenille carpet pile xi obtained by weaving and tufting any two color yarns alpha and beta in a binary color yarn system _α ,G _α ,B _α )、(R _β ,G _β ,B _β ) Constructing the color value (R) of the chenille carpet pile xi corresponding to each specified number of color silk threads in the weaving tufting _ξ ,G _ξ ,B _ξ ) Then entering step C;

and C, selecting two primary color silk yarns which respectively meet the requirements of the preset color differences from the preset number of primary color silk yarns to combine to form each color silk yarn which respectively meets the requirements of the preset color differences, and respectively corresponding to the color value (R) under the weaving tufting of each appointed number of color silk yarns according to the chenille carpet pile xi _ξ ,G _ξ ,B _ξ ) Based on the color yarns respectively meeting the requirements of the preset chromatic aberration, the preset pile of the chenille carpet is respectively constructed by applying two color yarns in a spinning and tufting mode.

As a preferred embodiment of the present invention, in the step B, the following table 1 is shown:

TABLE 1

Construction of color value (R) of chenille carpet pile xi corresponding to three color yarn textile tufts _ξ ,G _ξ ,B _ξ )。

As a preferred embodiment of the present invention, in the step B, the following table 2 shows:

TABLE 2

Construction of color value (R) of chenille carpet pile xi corresponding to six color yarn textile tufts _ξ ,G _ξ ,B _ξ )。

As a preferred embodiment of the present invention, in the step B, the following table 3 shows:

TABLE 3

Construction of color value (R) of chenille carpet pile xi corresponding to eight color threads in textile tufting _ξ ,G _ξ ,B _ξ )。

As a preferred technical scheme of the invention: in the step C, two primary color silk threads meeting the requirement that the color difference of the primary color silk threads is less than 60 degrees are selected from the preset number of primary color silk threads to be combined to form various color silk threads meeting the requirement that the color difference of the primary color silk threads is less than 60 degrees, and the color values (R) under the weaving tufting of the color silk threads with the appointed number are respectively corresponding to the chenille carpet pile xi _ξ ,G _ξ ,B _ξ ) Based on various color silk threads meeting the requirement that the color difference of the primary color silk threads is less than 60 degrees, the color matching pile of the chenille carpet is constructed by applying two color silk threads in a spinning and tufting mode.

As a preferred technical scheme of the invention: in the step C, two kinds of primary color silk threads which meet the requirement that the color difference of the primary color silk threads is more than 60 degrees and less than 120 degrees are selected from the preset number of primary color silk threads to be combined to form various color silk threads which meet the requirement that the color difference of the primary color silk threads is more than 60 degrees and less than 120 degrees, and the color values (R) under the weaving tufting of the color silk threads with the appointed number are respectively corresponding to the chenille carpet pile xi _ξ ,G _ξ ,B _ξ ) Based on the requirement of color difference of primary color silk threadsThe chenille carpet parquet pile is constructed by applying textile tufting for various color yarns greater than 60 ° and less than 120 °.

As a preferred technical scheme of the invention: in the step C, two primary color silk threads which meet the requirement that the color difference of the primary color silk threads is more than 120 degrees and less than 180 degrees are selected from a preset number of primary color silk threads to be combined, and the primary color silk threads are respectively combined with two primary color silk threads of a white silk thread or a black silk thread to form various color silk threads which meet the requirement, and the color values (R) under the weaving tufting of the color silk threads with the appointed number are respectively corresponding to the chenille carpet pile xi _ξ ,G _ξ ,B _ξ ) The chenille carpet fancy pile is constructed by applying textile tufting to two kinds of color yarns based on various color yarns satisfying the above requirements.

Compared with the prior art, the chenille carpet pile pattern based on the color yarn binary color mixing regulation and control and the construction method thereof adopt the technical scheme that the chenille carpet pile pattern has the following technical effects:

the chenille carpet pile pattern based on the color yarn binary color mixing regulation and control and the construction method thereof regulate and control the distribution imbalance of the color yarns on the chenille carpet pile through the change of the color yarn combination mode and the combination proportion of multi-primary colors, so that the chenille carpet pile pattern generates color matching patterns, matching patterns and pattern clipping patterns; the color mixing is different from the addition mixing of color light mixing and the subtraction mixing of color material mixing, the multi-element primary color silk mixing is spatial juxtaposition mixing and is non-uniform mixing, and the chenille pile can present a color matching effect of color separation obscurity, a color separation soft matching effect or a color separation clear clipping effect on the visual effect by regulating and controlling the mixing proportion of the multi-element primary color silk and the color difference, the brightness difference and the saturation difference among the primary color silk; the whole design execution method can effectively improve the construction efficiency of the pile patterns of the chenille carpet.

Drawings

FIG. 1 is a flow chart of a chenille carpet pile pattern designed based on color yarn binary mixed color regulation and control and a construction method thereof.

Detailed Description

The following description will explain embodiments of the present invention in further detail with reference to the accompanying drawings.

The invention designs a chenille carpet pile pattern based on color yarn binary mixed color regulation and a construction method thereof, and in practical application, as shown in figure 1, the following steps A to C are specifically executed.

And step A, obtaining a color silk thread by mixing two primary color silk threads based on a preset number of primary color silk threads, constructing a binary color silk thread system, and then entering step B.

In practical applications, such as the execution of step a based on eight primary colors of red, yellow, green, cyan, blue, magenta, black, white filaments by tube dyeing or stock solution dyeing, then the result is obtained

The two-primary-color silk thread combination mode is as follows, and then a binary color silk thread system is formed.

R+G R+B R+C R+M R+Y R+K R+W

G+B G+C G+M G+Y G+K G+W

B+C B+M B+Y B+K B+W

C+M C+Y C+K C+W

M+Y M+K M+W

Y+K Y+W

K+W

B, combining the color values (R) of any two color yarns alpha and beta based on the chenille carpet pile xi obtained by weaving and tufting any two color yarns alpha and beta in a binary color yarn system _α ,G _α ,B _α )、(R _β ,G _β ,B _β ) Constructing the color value (R) of the chenille carpet pile xi corresponding to each specified number of color silk threads in the weaving tufting _ξ ,G _ξ ,B _ξ ) Then, step C is entered.

In a specific practical application, step B is designed and constructed, for example, to construct a color value (R) of a textile tuft in the context of a chenille carpet pile xi corresponding to 3 color threads, 6 color threads and 8 color threads, respectively _ξ ,G _ξ ,B _ξ ) Specifically, as shown in table 1 below:

TABLE 1

Construction of color value (R) of chenille carpet pile xi corresponding to 3 color yarn textile tufts _ξ ,G _ξ ,B _ξ )。

For the application of 6 color filaments to chenille carpet pile xi, the specific design is as shown in table 2 below:

TABLE 2

Construction of color value (R) of chenille carpet pile xi corresponding to 6 color yarn textile tufts _ξ ,G _ξ ,B _ξ )。

Finally, for 8 color threads corresponding to the chenille carpet pile xi, the specific design application is as shown in table 3 below:

TABLE 3

Construction of color value (R) of chenille carpet pile xi corresponding to that of 8 color yarn woven tufts _ξ ,G _ξ ,B _ξ )。

The chenille pile presents in visual effect either a color separation and obscurity color matching effect, or a color separation and soft color matching effect, or a color separation and clear color clipping effect, wherein the color matching effect is that the color visual effect achieved by mixing fibers with different colors in adjacent color areas has obscurity color separation levels; the mosaic effect is that the color visual effect achieved by mixing different color fibers in complementary color areas has softer color separation levels; the so-called trapping effect is the clear color separation gradation of the color visual effect achieved by mixing fibers of different colors in the opposite color region.

And C, selecting two primary color silk yarns which respectively meet the requirements of the preset color differences from the preset number of primary color silk yarns to combine to form each color silk yarn which respectively meets the requirements of the preset color differences, and respectively corresponding to the color value (R) under the weaving tufting of each appointed number of color silk yarns according to the chenille carpet pile xi _ξ ,G _ξ ,B _ξ ) Based on the color yarns respectively meeting the requirements of the preset chromatic aberration, the preset pile of the chenille carpet is respectively constructed by applying two color yarns in a spinning and tufting mode.

Specifically, in the step C, each preset color difference requirement includes that the color difference is less than 60 °, the color difference is greater than 60 ° and less than 120 °, and the color difference is greater than 120 ° and less than 180 °, in the specific design execution, for the color difference less than 60 °, that is, from among a preset number of primary color filaments, each two primary color filament combinations satisfying that the color difference of the primary color filaments is less than 60 ° are selected, and the specific pairing based on the eight primary colors is as follows: red-yellow, yellow-green, green-cyan, cyan-blue, blue-magenta and magenta-red, and various color threads meeting the requirement that the color difference of the primary color threads is less than 60 degrees are formed, and color values (R) under the weaving and tufting of various specified number of color threads are respectively corresponding to the chenille carpet pile xi _ξ ,G _ξ ,B _ξ ) Based on various color silk threads meeting the requirement that the color difference of the primary color silk threads is less than 60 degrees, the color matching pile of the chenille carpet is constructed by applying two color silk threads in a spinning and tufting mode.

In this way, based on the application of the textile tufting method with two color yarns, when 3 color yarns are mixed to prepare the chenille carpet pile, the color matching gradient is 1/3; if 6 color yarns are mixed to prepare the chenille carpet pile, the color matching gradient is 1/6; if 8 color yarns are blended to make a chenille carpet pile, the color matching gradient is 1/8.

For a difference in color of more than 60 DEG and less than 120 DEGNamely, two primary color silk threads which meet the requirement that the color difference of the primary color silk threads is more than 60 degrees and less than 120 degrees are selected from a preset number of primary color silk threads, and the specific pairing based on the eight primary colors is as follows: red-green, yellow-cyan, green-blue, cyan-magenta, blue-red, magenta-yellow, constituting various color threads satisfying the color difference of primary color threads of more than 60 DEG and less than 120 DEG, and respectively corresponding to the color value (R) of each specified number of color threads in the textile tufting according to the chenille carpet pile xi _ξ ,G _ξ ,B _ξ ) The chenille carpet parquet pile is constructed by applying the two color yarns in a spinning and tufting mode based on various color yarns meeting the requirement that the color difference of the primary color yarns is more than 60 degrees and less than 120 degrees.

Thus, based on the two color yarn application textile tufting method, when 3 color yarns are mixed to prepare the chenille carpet pile, the parquet gradient is 1/3; if 6 color yarns are mixed to prepare the chenille carpet pile, the parquet gradient is 1/6; if 8 color yarns are blended to make a chenille carpet pile, the parquet gradient is 1/8.

For each combination of two primary color filaments with a color difference of 180 °, that is, a preset number of primary color filaments, and each primary color filament combined with each two primary color filaments of a white filament or a black filament, respectively, the color difference of the primary color filaments is greater than 120 ° and less than 180 °, the eight primary colors are specifically paired as follows: red-cyan, yellow-blue, green-magenta, black-white, red-white, yellow-white, green-white, cyan-white, blue-white, magenta-white, red-black, yellow-black, green-black, cyan-black, blue-black, magenta-black, and various color yarns satisfying the above requirements are formed, and color values (R) under each specified number of color yarns are respectively corresponding to the pile xi of the chenille carpet _ξ ,G _ξ ,B _ξ ) The chenille carpet fancy pile is constructed by applying textile tufting to two kinds of color yarns based on various color yarns satisfying the above requirements.

Thus, based on the two color yarn application textile tufting approach, when 3 color yarns are mixed to produce a chenille carpet pile, the clip gradient is 1/3; if 6 color yarns are mixed to prepare the chenille carpet pile, the clipping gradient is 1/6; if 8 color yarns are blended to make a chenille carpet pile, the grip gradient is 1/8.

Based on the design, the chenille carpet pile pattern based on the color yarn binary color mixing regulation and control and the construction method thereof, the construction of the chenille carpet pile pattern in practical application is realized, and the color value (R) of the chenille carpet pile xi corresponding to six color yarn textile tufting is combined _ξ ,G _ξ ,B _ξ ) And the use of octa-base yarn, particularly with respect to a pattern-chenille carpet embodiment having a gradient of pile-to-color effect, the design of the color-matched pile-chenille carpet gradient pattern is shown in table 4 below.

TABLE 4

Further, the color values of the color-matched pile are calculated as shown in Table 5 below.

TABLE 5

Color value (R) at six-number color yarn textile tufts, also based on chenille carpet pile xi _ξ ,G _ξ ,B _ξ ) And the use of octal-base yarn, particularly with respect to a pattern-chenille carpet embodiment having a gradient of pile-parquet effect, the parquet-chenille carpet gradient pattern design is shown in table 6 below.

TABLE 6

Further, the mosaic pile color values were calculated as shown in Table 7 below.

TABLE 7

Finally, the color value (R) of the six-number color silk thread textile tufting is corresponding to the xi based on the chenille carpet pile _ξ ,G _ξ ,B _ξ ) And the use of octal base yarn, particularly with respect to the pattern-chenille carpet embodiment with gradient pile-clip-effect, the clip-flower pile chenille carpet gradient pattern design is shown in table 8 below.

TABLE 8

Further, the values of the color of the fancy pile are calculated as shown in Table 9 below.

TABLE 9

The chenille carpet pile pattern based on the color yarn binary color mixing regulation and control and the construction method thereof are designed by the technical scheme, and the unevenness of the color yarn distribution on the chenille carpet pile is regulated and controlled through the change of the color yarn combination mode and the combination proportion of multi-primary colors, so that the color matching pattern, the matching pattern and the pattern sandwich are generated; the color mixing is different from the addition mixing of color light mixing and the subtraction mixing of color material mixing, the multi-element primary color silk mixing is spatial juxtaposition mixing and is non-uniform mixing, and the chenille pile can present a color matching effect of color separation obscurity, a color separation soft matching effect or a color separation clear clipping effect on the visual effect by regulating and controlling the mixing proportion of the multi-element primary color silk and the color difference, the brightness difference and the saturation difference among the primary color silk; the whole design execution method can effectively improve the construction efficiency of the pile patterns of the chenille carpet.

The embodiments of the present invention have been described in detail with reference to the drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (4)

1. The construction method of the chenille carpet pile pattern based on the color yarn binary mixed color regulation is characterized by comprising the following steps of:

step A, obtaining a color silk thread by mixing two primary color silk threads based on a preset number of primary color silk threads, constructing a binary color silk thread system, and then entering step B;

b, combining the color values (R) of any two color yarns alpha and beta based on the chenille carpet pile xi obtained by weaving and tufting any two color yarns alpha and beta in a binary color yarn system _α ,G _α ,B _α )、(R _β ,G _β ,B _β ) Constructing the color value (R) of the chenille carpet pile xi corresponding to each specified number of color silk threads in the weaving tufting _ξ ,G _ξ ,B _ξ ) Then entering step C;

and C, selecting two primary color silk yarns which respectively meet the requirements of the preset color differences from the preset number of primary color silk yarns to combine to form each color silk yarn which respectively meets the requirements of the preset color differences, and respectively corresponding to the color value (R) under the weaving tufting of each appointed number of color silk yarns according to the chenille carpet pile xi _ξ ,G _ξ ,B _ξ ) Respectively constructing preset pile of each type of chenille carpet by applying a spinning tufting mode through two kinds of colored silk yarns based on each colored silk yarn which respectively meets the requirement of each preset chromatic aberration;

wherein, from the preset number of primary color silk threads, each two primary color silk threads meeting the requirement that the color difference of the primary color silk threads is less than 60 degrees are selected to be combined to form various color silk threads meeting the requirement that the color difference of the primary color silk threads is less than 60 degrees, and the color value (R) under the weaving tufting of each appointed number of color silk threads is respectively corresponding to the chenille carpet pile xi _ξ ,G _ξ ,B _ξ ) Constructing a chenille carpet color matching pile by applying two color silk threads in a spinning and tufting mode based on various color silk threads meeting that the color difference of the primary color silk threads is less than 60 degrees;

selecting two primary color silk threads with the color difference of more than 60 degrees and less than 120 degrees from the preset number of primary color silk threads to combine to form various color silk threads with the color difference of more than 60 degrees and less than 120 degrees, and respectively corresponding to the color values (R) under the weaving tufting of each appointed number of color silk threads according to the chenille carpet pile xi _ξ ,G _ξ ,B _ξ ) Constructing a chenille carpet mosaic pile by applying two color yarns in a spinning and tufting mode based on various color yarns meeting the condition that the color difference of the primary color yarns is more than 60 degrees and less than 120 degrees;

selecting two primary color silk threads with the color difference of more than 120 degrees and less than 180 degrees from the preset number of primary color silk threads to combine with each other, and combining each primary color silk thread with each two primary color silk threads of the white silk threads or the black silk threads to form various color silk threads meeting the requirements, and respectively corresponding to the color values (R) under each specified number of color silk threads in the textile tufting according to the chenille carpet pile xi _ξ ,G _ξ ,B _ξ ) The chenille carpet fancy pile is constructed by applying textile tufting to two kinds of color yarns based on various color yarns satisfying the above requirements.

2. The method for constructing a chenille carpet pile pattern based on the binary color mixing control of color yarns as claimed in claim 1, wherein in the step B, the following steps are performed as shown in the following table 1:

TABLE 1

Color value (R) corresponding to three color silk threads under textile tufting for constructing chenille carpet pile xi _ξ ,G _ξ ,B _ξ )。

3. The method for constructing a chenille carpet pile pattern based on the binary color mixing control of color yarns as claimed in claim 1, wherein in the step B, the following table 2 is shown:

TABLE 2

Construction of color value (R) of chenille carpet pile xi corresponding to six color yarn textile tufts _ξ ,G _ξ ,B _ξ )。

4. The method for constructing a chenille carpet pile pattern based on the binary color mixing control of color yarns as claimed in claim 1, wherein in the step B, the following table 3 is shown:

TABLE 3

Construction of color value (R) of chenille carpet pile xi corresponding to eight color threads in textile tufting _ξ ,G _ξ ,B _ξ )。

Images