JP3670830B2 - Full color goblet fabric and its weaving method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a goblet woven fabric that can be expressed in full color and a weaving method thereof, and more specifically, by using a color system such as a Lab color system, color yarns of three or more colors that can cause juxtaposed color mixing are organized, It relates to technology that can be woven in full color.
[0002]
[Prior art]
The Gobelin woven fabric expresses a landscape, a pattern, etc., woven with pre-dyed yarn, and unlike post-dyed woven fabric, it pre-calculates and weaves the yarn color, position, etc. that appears on the surface according to the pattern. Therefore, the outline is that a designer draws an original picture showing landscapes, patterns, etc., and a professional designer designs a weaving data based on abundant experience and achievements, and causes a paper pattern by that design or It is converted into electronic data, which is then weaved on a jacquard machine.
[0003]
However, the following problems remain in the conventional weaving method.
(1) The conventional Gobelin weave is up to 6 layers even when it is set on a jacquard machine in order to express a relatively large number of colors, and the color expression ability of the machine is limited. In the case of expression, there are about 6 colors at most for the warp yarns and up to about 3 colors for the weft yarns. As a result, the color that can be expressed is generally at most 10 and the full color expression is difficult. .
In addition, in the woven fabric that expresses the hue with the main weft yarn (wefting method), although a pseudo multicolored woven fabric can be woven, the number of weft yarns that can be used per unit is limited as a woven fabric, that is, it can be used at all times. If the number of weft yarns is not about 3 colors, a fabric structure cannot be formed, and even though up to 12 colors can be used as the weft insertion mechanism of the loom, it cannot be used freely, so colors can be expressed freely in any block of the fabric. As with the warp yarn, full-color expression was difficult.
[0004]
(2) Also, when making a multi-colored painting-like pattern, change the warp thread diameter pattern and take a method to make the thread of the color you want to use for the pattern into a specific pattern. The image of the finished original image (original image) is determined, the color of the pre-dyed yarn to be used is decided, and weaving data is created considering the structure of the mixed color, and this is a high design technology. It can only be achieved by a designer who has gained a lot of experience and was inefficient.
[0005]
(3) Furthermore, as described above, since it takes a lot of time and labor to create weaving data from the original picture, it takes a long time from receiving an order to shipping, and it is necessary to shorten the delivery time. And lacked a quick response.
[0006]
[Problems to be solved by the invention]
The present invention has been made in order to solve the above-mentioned problems, and by applying uniform color and juxtaposed color mixing in the color system, full color expression is realized in Gobelins, enabling unprecedented photographic-like rendering. At the same time, the creation of the weaving data is made more efficient, so that even an amateur can do the weaving work and at the same time open up the path of automation by computerization.
[0007]
[Means for Solving the Problems]
Color systems used in the present invention include Lab color system, Lch color system, Luv color system, Yxy color system, Munsell color system, Ostwald color system, and the like.
Displaying colors quantitatively is called color specification, and a system consisting of a series of rules and definitions for color specification is called color specification. This color system includes a 1 perceptual color space and a 2 uniform perceptual color space. The former corresponds to the Munsell color system and the Ostwald color system, and the latter corresponds to the Lab color system, the Lch color system, and the Luv color system. This corresponds to the color system and the Yxy color system.
The Lab color system has a hue value changing from green to red on the x-axis, a hue value changing from yellow to blue on the y-axis, and a lightness value on the z-axis. The Lch color system is obtained by converting the coordinates of the Lab color system into polar coordinates. The Yxy color system is a system in which x and y are displayed as chromaticities on coordinates by converting mathematically based on tristimulus values of X, Y, and Z (see FIG. 3). The system further converts this into u and v axes.
The Munsell color system is a ring of colors formed by connecting the spectral color locus of the chromaticity diagram and the pure purple locus, and is red, yellow red, yellow, yellow green, green, blue green, blue, blue purple, purple. , Reddish purple for 10 minutes, further divided (see Fig. 2), the Ostwald color system is divided into 8 minutes for yellow, orange, red, purple, indigo, blue, blue green, yellowish green, It is a division.
[0008]
Any one of the above color systems is selected, and three or more color yarns are selected as one unit for the warp and weft yarns so that the hue difference is equally spaced in the color system. When the hue difference is equal, in the Lab color system, Lch color system, Munsell color system, and Ostwald color system, the hue is represented by a circle centered on one point. The angles θ ₁ , θ ₂ , θ ₃ , θ ₄ ... Formed by the radial line segments r ₁ , r ₂ , r ₃ , r ₄ ··· are θ ₁ = θ ₂ = θ ₃ = θ _4. Refers to the relationship (see FIGS. 1 and 2).
However, this equal sign is not strict and can have a width within a range that does not affect the color mixture described later.
On the other hand, in the Yxy color system and the Luv color system, the ring representing the hue is not circular but approximates to a triangle. However, when a point that becomes white is generated by additive color mixture, When the line segment connecting the point on the ring and the center is set to r ₁ , r ₂ , r ₃ , r ₄ ..., The relationship between the angles is θ ₁ = θ ₂ = θ ₃ = θ _4. (Refer to FIG. 3).
And each point does not necessarily need to be a point on the outer periphery of the color wheel. Even if the saturation is different, θ ₁ = θ ₂ = θ ₃ = θ ₄ ... _On r ₁ , r ₂ , r ₃ , r _4.・ If it becomes, it can be said that the hue difference is equally spaced.
[0009]
Among the above color systems, the Lab color system, the Lch color system, the Luv color system, and the Yxy color system can obtain high accuracy by the spectrocolorimetric method and can be used for any nonexistent color stimulus. However, the Munsell color system and the Ostwald color system are superior in that they are easy to understand intuitively because they do not require a spectrocolorimeter because they have an actual color chart. It is desirable to select according to the purpose and application of weaving. Among these, the Lab color system is excellent in that an accurate value can be obtained by a colorimeter and a model of the color system is easy to understand. Further, for the Lab color system, the Lch color system, the Luv color system, and the Yxy color system, a color system defined by the International Lighting Commission (CIE) is desirable from the viewpoint of high reliability.
[0010]
Next, in the above color system, three or more color yarns are selected as one unit for the warp yarn and the weft yarn so that the hue difference is equally spaced, and a minute unit capable of causing side-by-side color mixing in the unit yarn. Within the area, a thread necessary for the expression of the pattern is disposed on the back structure, and a thread unnecessary for the surface structure is disposed.
Side-by-side color mixing means that when an observer looks at a color more than a certain distance, multiple colors that are juxtaposed appear to be mixed together without being individually distinguished, and the colors of these colors have a hue difference, etc. When there are more than three colors as the interval, all hues can be expressed by the theory of additive color mixing.
The minute unit area that can cause this mixed color mixing varies depending on the distance. For example, when the fabric is viewed at a distance of about 30 cm as usual (hand level), wall hanging (wall level) or banner Thus, the unit area changes when viewed from several meters or tens of meters away.
[0011]
Therefore, when a means for setting the size of the minute unit area is specifically obtained, for example, when the fabric is used at a wall level distance, the length of one mouth: Ly is set to 0.7 to 2 mm. Is set as a guideline, and in the case of a hand level, about 0.4 to 0.9 mm is desirable.
The ratio of “the length of one mouth: Ly” and “the length over 1: Lt” in one unit: ρ is:
ρ = Lt / Ly = 0.7 to 1.5 is a suitable range. Incidentally, when the weaving density of the weft yarn is 95 / inch and ρ = 1, the aspect ratio of the original image can be made 1: 1.
[0012]
Next, within the unit area, three or more colored yarns are selected from the warp yarn and the weft yarn so that the hue difference becomes equal. The configuration of three or more yarns may be any of a case where three or more colored yarns are composed of warp yarns alone, a configuration of only weft yarns, or a case of mixing both.
Further, the number of unit color yarns of three or more is desirable in that the number of color yarns is as large as possible in terms of being able to express subtle changes in color. However, for example, about 0.8 mm × 0 When the unit area is a square of 8 mm, the number of warp yarns and weft yarns that can be woven there is limited in terms of physical and weaving methods. Appropriate. Among them, when weaving with 8 warp yarns and 6 weft yarns, there is no physical problem, and it is excellent in the depiction of people, landscapes and the like.
Further, by adding white yarn or black yarn to the three or more unit color yarns, it can be expressed by adding brightness to the hue.
[0013]
The combination of unit color yarns will be described with a specific example. For example, when the number of warp yarns is 8 in the design of the frame, the six dyed yarns are selected so as to be divided into 6 equal parts from the CIELAB color system. Then, select white and black for the two, select white and black for the weft, and select a transparent yarn for the purpose of holding the weave structure. By combining these, we will increase the warp by one to calculate the weft. If white is organized with white, ₈ C ₁ = 8 colors are mixed. Similarly, when the warp yarn is raised by 2 and the weft yarn is white and organized, ₈ C ₂ = 28 colors are mixed, and when the warp yarn is raised by 3 and the weft yarn is white and organized, ₈ C ₃ = 56 When the colors of the streets are mixed, the warp yarns are raised by 4 and the weft yarns are white and organized ₈ C ₄ = 70 colors are mixed, the warp yarns are raised by 5 and the weft yarns are white and organized ₈ C ₅ = 56 colors are mixed, 6 warp yarns are raised and the weft yarn is white and organized ₈ C ₆ = 28 colors are mixed, 7 warp yarns are raised and the weft yarn is white When organized, ₈ C ₇ = 8 colors are mixed. However, when the number of warp yarns is increased, a problem of unreasonableness and color mixing will occur. Therefore, when the number of warp yarns is increased from one to three and the weft yarns are increased in white and black, a total of 184 colors Is realistic.
[0014]
In the following example, when the number of warp yarns is 8 due to the design of the frame, the 8 pre-dyed yarns are selected to be divided into 8 equal parts from the CIELAB color system, and 3 of the 6 weft yarns are CIELAB table. The selection was made to divide into three equal parts from the color system, two were white and black, and the other one was selected for the purpose of holding down the weave texture. By combining these, in the calculation, the number of warp yarns is increased by one and then three is increased to 184 ways, and the weft yarn is 25 in the five colors of the color system when it is raised from one to the third, resulting in a total of 4600 colors. Mixed colors. In this case, since there are many color mixtures, even subtle color changes can be expressed smoothly.
As described above, the number of hues expressed by the combination of the warp and the weft is various, but if the color yarns are basically selected uniformly from the color system of the uniform color space, it is possible to express a full color. Other variations are possible.
[0015]
Next, among the unit color yarns, a yarn necessary for color expression of a specific part of the pattern is a surface texture, an unnecessary yarn is a back surface texture, for example, the surface texture is a plain weave, and the back texture is a twill weave. To do.
That is, for the color expression of a specific part of the pattern, there are necessary color yarns and unnecessary color yarns in one unit of yarn, and the purpose is to weave the necessary yarns as a surface texture. Color representation is possible, and it is possible across all colors.
[0016]
A specific example of the weaving method of the combination of one unit of color yarn and the surface texture and the back texture is, for example, when a pattern color as shown in FIG. 4 is produced, an 8 × 4 texture chart is shown in FIG. Two weft threads are inserted in the order of the left side, and one complete with 24 lines.
To explain this step by step, as shown in FIG. 5, the transparent thread of the presser thread (the one that presses the warp thread) is inserted at No. 1. At this time, the warp thread only rises in blue-green and presses the transparent thread, and the white thread at No. 2 At this time, the warp yarns are red, yellow, and yellowish green, forming a pattern color. Next, black thread is inserted at No. 3, and red, yellow, yellow green, and blue-green are raised at this time, but red, yellow, and yellow-green are always raised, so they are organized under blue. In the same way, No. 4 and No. 5 are back side structures. In the case of No. 6 purple, the surface texture constituting the pattern color is set in the same manner as No. 2, and this cycle is repeated four times to complete one.
In this way, as shown in FIG. 4, the warp yarns are red, yellow, and yellowish green, and the weft yarns are mixed with white and purple to form a pattern color. Various pattern colors are mixed by changing the pattern of the thread that goes up.
FIG. 6A is a cross-sectional view of the woven fabrics of No. 1 to No. 7 and FIG. 6B shows the cases of No. 8 to No. 13.
[0017]
Next, when actually expressing the color of a specific part, the warp and weft structure diagram and the color expressed from it are associated in advance, and the necessary warp and weft structure and unnecessary combinations Is convenient because it can be determined instantaneously.
Therefore, in the present invention, a correspondence relationship is determined between a certain color and a combination of textures , and this is used as a swatch ( color sample of fabric texture ).
This will be described in detail based on a specific example. For example, in the case of 8 warp yarns and 6 weft yarns, 6 pieces of warp yarns are required in the structure chart. An example of this is shown in FIG. 7, where 1 is an organization chart in the case of raising the right end of 8 pieces, and the second, third, fourth and fifth from the right end are similarly raised. Is an organization chart of 2, 3, 4 and 5.
Reference numerals 41 to 45 in FIG. 8 are organization charts of an example in which three warp yarns are raised in order.
On the other hand, FIG. 9 shows an example of a pattern for assembling unnecessary yarns with a twill weave as a back surface structure.
These organization charts are not limited to one example, and several sequences can be combined into one organization chart, and various patterns of several hundred or more can be assembled.
A sample of a certain color is expressed by combining this organization chart. That is, a certain color, which is a combination (aggregate) of the structure chart, is displayed and used as a color sample (swatch sample) of the fabric structure .
FIG. 10 shows an example of the creation of a sample. The organization chart is given a number (organization chart number), and the combination is divided and displayed at the top. Is displayed.
When the swatch sample is used, if the heel number is specified by comparing the pattern color of the specific part and the color of the swatch sample, a combination of organization charts (combination of organization chart numbers) constituting the color from the heel number And weaving data can be created according to the organization chart. A prototype of 2400 colors was produced on a trial basis.
[0018]
And when the color of the warp used in this example was measured, red {L ^* 35.23a ^* 59.38, b ^* 33.77}, orange {L ^* 70.93, a ^* 24.63, b ^* 71.74} in the CIELAB color system , Yellow green {L ^* 77.90, a ^* -36.16, b ^* 57.11}, green {L ^* 43.65, a ^* -55.29, b ^* 17.50}, blue green {L ^* 47.85, a ^* -33.23, b ^* 18.28} , Blue {L ^* 63.45, a ^* -8.78, b ^* -32.98}, blue purple {L ^* 22.53, a ^* 23.33, b ^* -44.44}, red purple {L ^* 31.58, a ^* 56.62, b ^* -11.66} The hue of the weft is white {L ^* 94.66, a ^* -0.74, b ^* 4.38}, black {L ^* 15.23, a ^* 0.92, b ^* -1.65}, yellow {L ^* 78.99, a ^* 6.15, b ^* 73.25}, blue green {L ^* 45.46, a ^* -33.79, b ^* -16.15}, purple {L ^* 25.89, a ^* 37.90, b ^* -22.75}. This is divided and selected evenly in a uniform color space, and is a uniform sample by juxtaposed color mixing.
In particular, a sample using 8 colors of warp and 6 colors was a very good sample.
[0019]
Furthermore, if the color of the design image that is the basis of the fabric is selected from the sample, weaving data can be automatically derived by using the organization correspondence table. However, by developing software, only the yarn to be used is determined. This makes it possible to create weaving data for a full-color Gobelin fabric that is optimal for design images. The software-use automation procedure is described as follows.
1) Input of used thread data Input color information and thickness of warp and weft thread used.
This input method includes (a) a method of inputting thread color data using a CCD camera, a digital camera, an image scanner, etc., and (b) a thread color meter or the like for measuring thread data. There are ways to color and input to the design system.
2) Set the full color Gobelin fabric unit diagram Set the unit diagram layout and register it in the system. Reflects the shape and area of the warp, weft, presser, and gap in the unit diagram on the fabric surface.
3) Calculation and registration of sample data by software The composite color (sample data) by juxtaposed color mixing is calculated and registered in the system from the yarn data to be used and the layout of the unit diagram. Here, what is expressed by warp and weft and can be actually made into a woven fabric is registered in correspondence with the tissue data in the case where each is created by the tissue.
4) Editing the textile design drawing Edit the design drawing for the full color Gobelin fabric. Express the color as close as possible to the actual fabric, and summarize the number of colors.
5) Color selection by software Select the sample data closest to each color used in the design image.
6) Creation of weaving data Weaving data is created using the organization data attached to the selected sample data.
Here, once steps 1) to 3) are performed, the registered data can be used thereafter. 4) to 6) are performed every time a new fabric is designed, but the designer performs only 4).
[0020]
【Example】
The full color goblet fabric manufacturing method of the present embodiment performs the mechanism shown in FIG. 11. At this time, when pulling in the dropper, wrinkle and wrinkle from the beam, eight warp yarns and eight colors are used as the basic unit. In the design of the frame, it was set to 32 eyes / inch (256 pieces / inch), and the width of one handle was set to 9 inches.
The fineness of the yarn used is silk 130D, silk weave 560D, red, orange, yellow green, green, blue green, water, blue purple, red purple on the warp, purple, yellow, Transparent nylon 50D was used for the five colors of blue-green, white and black.
As described above, the density was 256 lines / inch, and the width was 180 lines / inch. This was assumed to be a wall level, and the unit area causing juxtaposed color mixture was 0.8 mm × 0.8 mm.
The pattern size was 288 units, the number was 368 (overlay), and 58 colors were used from 2400 swatches.
The landscape pattern of Ashikaga school in FIG. 12 was selected as the pattern to be used, and this was compared with the color on the personal computer screen, and the color of the specific part and the color of the sample were compared to create weaving data.
This was applied to a jacquard machine to execute goblan weaving.
The result is as shown in FIG. 12, and realized the high added value of being able to express almost the desired color on the fabric and expressing the full color in the pre-dyed fabric.
[0021]
【The invention's effect】
The present invention based on the above configuration applies uniform color and juxtaposed color mixing in the color system, can control the hue of the pattern on a unit basis, and can freely control the hue without being limited by the expression of the hue of the pattern. Since the dyed fabric can be woven, it has an epoch-making effect that makes it possible to express the Gobelin fabric in full color.
As a result, it realizes a color expression comparable to printed matter in addition to the high-class feeling unique to dyed-dyed fabrics, making it a fabric with high added value, and in particular, the hue changes in minute units as represented by photographs, and By enabling the weaving of patterns that require hues of several tens of colors or more, it brings about an innovative effect that it is possible to weave photographic-style dyed fabrics that were impossible in the past.
[0022]
In addition, weaving data can be created more efficiently by using a swatch, etc., simplification of design is realized, and weaving data can be created without a wealth of knowledge and experience in jacquard fabrics. It is an excellent invention that can open the way of automation by computerization by developing wear.
[Brief description of the drawings]
FIG. 1 is a plan view showing hue and saturation values of a Lab color system.
FIG. 2 is a plan view showing a hue ring of the Munsell color system.
FIG. 3 is a plan view showing hue and saturation values of a Yxy color system.
FIG. 4 is a partially enlarged plan view showing an example in which colored yarns are woven within a minute unit area.
FIG. 5 is a plan view showing an example of an order and a state in which warp yarns and weft yarns are organized.
6A is a longitudinal side view showing the organizational state when the order 1 to 6 in FIG. 5 is executed, and FIG. 6B shows the organizational state when the order 7 to 12 in FIG. 5 is executed. FIG.
FIG. 7 is a structure diagram used for a patterned surface in the case of raising one warp when inserting a weft.
FIG. 8 is a structure diagram used for a patterned surface in a case where three warp yarns are raised when a weft yarn is inserted.
FIG. 9 is a structure diagram used on the back surface when inserting a weft thread.
FIG. 10 is a correspondence table in which organization combinations used to create a sample are represented by organization numbers.
FIG. 11 is a schematic diagram showing a mechanism.
FIG. 12 is a front view showing the created Gobelin fabric.
[Explanation of symbols]
1 Weft Thread 2 White Weft 3 Black Weft 4 Yellow Weft 5 Blue Green Weft 6 Purple Weft

Claims (6)

  A color thread that represents at least six colors selected so that the hue difference is equally spaced in the color system, by selecting one color system from among the systematic color systems that display the colors quantitatively A warp that has been warped with at least 8 of white and black as a unit, color yarns representing at least three colors selected in the same way, and white, black and transparent presser yarns as a unit. A goblan woven fabric composed of at least six wefts inserted in the order of weaving as a unit of weaving, the vertical and horizontal length of one unit of the structure being 0.4-2 mm In one unit structure, weaving one unit of warp and weft yarns necessary for expressing a predetermined color by juxtaposed color mixing on the surface structure with a plain weave change structure and the remaining yarn on the back structure Many types of colors are represented by side-by-side color mixing Create a weaving data by determining the organization chart that represents the color corresponding to the color of a specific part of the pattern to be used, based on a sample that associates multiple colors with a plurality of organization charts that represent these colors by juxtaposed color mixing. And a Goblan fabric characterized in that a multicolor pattern can be expressed by weaving according to the weaving data.   At least 8 colors each representing at least 8 colors selected so that the hue differences are equally spaced in the color system are selected from among the systematic color systems that display the colors quantitatively. A warp warped with one color yarn as a unit, a color yarn representing at least three colors selected in the same way, a white yarn, a black yarn and a transparent presser yarn as a unit are inserted in a predetermined order. A goblet woven fabric composed of at least 6 wefts as a unit of weaving, the length and width of one unit structure being 0.4 to 2 mm, one unit of warp and weft Among them, the yarns necessary to represent a given color by juxtaposed color mixing are woven in the surface structure with a plain weave change structure, and the remaining yarns are woven in the back structure, so that multiple colors can be juxtaposed in a single unit structure. As well as multiple colors, A weaving sample in which a color corresponding to the color of a specific part of the used pattern is generated by a sample that associates a plurality of organization charts each representing these colors with juxtaposed color mixing, and weaving data is created and the weaving data is created. A Gobelin fabric characterized in that it can express multicolored patterns by weaving according to the above.   The Gobelin fabric according to claim 1 or 2, wherein a Lab color system is used as the color system.   A color thread that represents at least six colors selected so that the hue difference is equally spaced in the color system, by selecting one color system from among the systematic color systems that display the colors quantitatively A warp that has been warped with at least 8 of white and black as a unit, color yarns representing at least three colors selected in the same way, and white, black and transparent presser yarns as a unit. Weaving method of Gobelin woven fabric that weaves at least 6 wefts inserted in the order of weaving as a unit of weaving, wherein the vertical and horizontal length of one unit structure is 0.4-2 mm In one unit structure, a single unit of warp and weft yarns, which are necessary for expressing a predetermined color by juxtaposed color mixing, are formed into a surface structure with a plain weave change structure and a remaining structure into a back structure. Represent many kinds of colors by juxtaposed color mixing In both cases, a weaving sample that associates a plurality of colors with a plurality of organization charts each representing these colors by juxtaposed color mixing is used to determine the organization chart representing the color corresponding to the color of the specific part of the used pattern, and to obtain the weaving data. A method for weaving a Gobelin fabric, characterized in that a multicolor pattern can be expressed by creating and weaving with a loom according to the weaving data.   At least 8 colors each representing at least 8 colors selected so that the hue differences are equally spaced in the color system are selected from among the systematic color systems that display the colors quantitatively. A warp warped with one color yarn as a unit, a color yarn representing at least three colors selected in the same way, a white yarn, a black yarn and a transparent presser yarn as a unit are inserted in a predetermined order. A method for weaving a Gobelin fabric, in which at least six wefts are woven as one unit of weaving, wherein the length and width of one unit structure are 0.4 to 2 mm, and one unit of warp and weft Of these, by arranging the yarns required to represent a given color by juxtaposed color mixing into a surface structure with a plain weave change structure and the remaining yarns into a back structure, multiple types of colors are juxtaposed in a single unit structure As well as multiple And a swatch that associates each of these colors with a plurality of organization charts each represented by juxtaposed color mixing, to create a weaving data by calculating a organization chart representing a color corresponding to the color of a specific part of the used pattern, A method for weaving a Gobelin fabric, characterized in that a multicolor pattern can be expressed by weaving with a loom according to data.   The method for weaving a Gobelin fabric according to claim 4 or 5, wherein a Lab color system is used as the color system.