TWM632587U - Automatic color matching device - Google Patents

Abstract

An automatic color matching device, comprising at least one color matching part and a plurality of colored molded parts, the color matching part is provided with a plurality of color tone window groups, the color tone window groups include a plurality of solid and hollow windows, and each of the hollow and solid windows is separated by at least one side Correspondingly and adjacently arranged in series; multiple colored molded parts are provided with a molded color map on a carrier, and the molded color map has an array of color block groups arranged radially, through which the color block groups are composed of different main colors. Depending on the gradient setting of different concentrations, multiple colored molded parts have hue surfaces of different hues. According to the position distribution relationship between the main color and the color matching of the selected molding color map, by moving or rotating the colored molding, the molding color map is corresponding to any hue window group on the color matching part and stacked, so that the color of the color block is displayed on the The solid hexagonal windows complete the color matching effect.

Description

Automatic color matching device

This creation is about a color matching device, especially an automatic color matching device that can enhance the color matching efficiency.

Color is one of the important ways of human communication, and its rich connotation can effectively combine people's emotion, culture, psychology and other information. People need rich colors to decorate their lives, or to use them for many purposes, such as clothes, accessories or the environment, all of which require color matching. Color matching is to combine two or more colors in a certain order. However, it seems simple, but if the color matching is unreasonable, even if there are many rich colors available, it still cannot achieve the beauty of the color, or the result of the matching is inconsistent with the user's requirements, or the cruel situation is too big. In the past, people often matched colors based on subjective feelings and relying on visual impressions to match colors, which was often inefficient and ineffective. Furthermore, if you want to quickly match several common styles of color schemes, you still need a relatively complicated process of repeated testing and experiments. Although the matching effect is ideal, the process is complicated and time-consuming, resulting in low work efficiency. There are even large-scale machines for automatic pairing in the market, but it often happens that the machine is too large to take up space, or the pairing is rigid and the variability is small, and most of them do not meet the more delicate actual needs of users. Therefore, the author of this case provides an automatic color matching device as a different choice for users.

One purpose of this creation is to solve the above problems and provide an automatic color matching device, providing a flat design color matching device, by the corresponding superposition of the colored molding and the color matching part, or moving or rotating the color matching The difference between the molded part and the color matching part forms a two-dimensional color matching effect. In addition to facilitating users to search, two or more colors can be matched and combined to quickly select and match different color schemes to provide users with reference and quickly complete a variety of colors. The effect of color matching improves the efficiency of use and increases the practical effect. Another purpose of this creation is to provide an automatic color matching device, an intuitive and regular automatic color matching device, so that people can carry out indexed color matching and easily find the corresponding best color matching, and the automatic color matching device does not occupy In addition to space, it is easy to carry around, which can greatly improve the convenience, enthusiasm and randomness of users in using colors. In order to achieve the above-mentioned purpose, an automatic color matching device is provided in this creation, including: at least one color matching part and a plurality of colored molded parts; the at least one color matching part is provided with a plurality of color tone window groups, and each color tone window group includes a plurality of A solid window and a plurality of hollow windows are connected in series to form a polygonal window group. At least one hollow window is arranged at intervals between the solid windows, and at least one side of each solid window is connected to at least one side of each hollow window. The mutually common or corresponding sides are arranged in groups; a plurality of colored molded parts, the colored molded part has a carrier and a molded color pattern set on the carrier and composed of multiple colors, the molded color pattern has a central color Blocks, and arrays of color block groups are radially arranged around the central color block. These color block groups are respectively composed of different main hues and are set to form a flat hue surface by mixing colors and matching gradients from the central color block according to different density ratios. Carriers are actively positioned on the upper side of the color palette and are appropriately displayed in the solid windows of the tint window set. Based on the above, this creation can use the above technical solution to set the color block groups with different main colors and different concentrations in gradients, so that multiple colored molded parts have hue surfaces of different tones. When in use, according to the position distribution relationship between the main color and the color matching of the molding color map on the selected colored molding, by moving or rotating the colored molding, even if the molding color map corresponds to any hue window group on the color matching piece and overlaps , so that the color blocks of the shaping color map are displayed in the solid windows of the hue window group to complete the color matching effect. And you only need to move or rotate the colored molding to stack and correspond to any set of tint windows on the color matching piece, or replace another colored molding and move or rotate the corresponding position on the color matching piece to match two or more colors Make matching combinations and quickly select and match different color schemes. In this way, the operation process of color matching can be conveniently compared and carried out accurately, so as to easily find the corresponding best color matching and quickly complete various color matching effects.

The above-mentioned purpose of this creation and its structural and functional characteristics will be described according to the preferred and specific embodiments of the accompanying drawings. First of all, in order to better understand the purpose of this creation, here is a brief introduction to the principles of color science: Each color is usually composed of hue (primary color), purity (color brightness, also known as chroma), lightness ( It is a combination of three elements: the degree of lightness and darkness of the color); among them, the lightness collocation refers to the formation of a contrast relationship mainly based on the difference in lightness. Medium-high, medium-low, and low; there is also a strong, medium, and weak contrast between purity. Color matching includes hue matching and lightness matching. Hue matching is divided into matching of the same color (similar color), matching of adjacent colors, matching of similar colors, matching of intermediate colors, matching of contrasting colors, and matching of complementary colors. There are three primary colors: red, yellow, and blue. For example, when two primary colors are mixed, the hue is between the two colors. For example, orange is red plus yellow, green is yellow plus blue, and purple is blue plus red. Different mixing ratios produce For various hues, when different amounts of gray are mixed into the hue, there will be a change in purity. Please refer to Figure 1, which is a schematic diagram of the combined structure of the automatic color matching device of this creation; Figure 2, a schematic diagram of the color matching parts in Figure 1; Figure 3, a schematic diagram of the colored molded parts in Figure 1; The schematic diagram of the molding color map with six sets of color block groups in the middle colored molded part; Figures 5-7 are the operation schematic diagrams of the first, second and third embodiments of the positional relationship between the colored molded part and the color matching part in Figure 1; Figures 8B, 8C, and 8D are color pictures of the colored moldings in Figure 3 having different main hues to form hue planes of different hues. As shown in the figure, the invention provides an automatic color matching device 100, which includes: at least one color matching part 1 and a plurality of colored molding parts 2. The at least one color matching part 1 is provided with a plurality of color tone window groups 10 on the color color part 1, and the color tone window group 10 is composed of a plurality of hollow windows 11 and a plurality of solid windows 12, wherein the solid windows 12 are separated by intervals At least one hollow window 11 is set; that is, a hollow window 11 or two hollow windows 11 or more hollow windows 11 can be set at intervals between two solid windows 12, and each of the solid windows 12 wherein at least one side is connected with each At least one side of the hollow window 11 is a side corresponding to each other or a common side and is arranged adjacent to each other in series to form different polygonal window groups. In this embodiment, the hollow windows 11 are non-colored, and the solid windows 12 are colored, such as black or other colors. Specifically, the number of the solid windows 12 in each hue window group 10 is no more than five. Specifically, the hollow windows 11 and the solid windows 12 in each tone window group 10 mentioned above are set in a geometric shape, as shown in the figure, it is a hexagonal shape, but it can also be other shapes such as circles, rectangles or squares, And the hexagonal shape is designed with equal diagonals and opposite sides with equal lengths. Furthermore, the hexagonal shape of the solid windows 12 is slightly larger than the hexagonal shape of the hollow window 11; however, the structural design of the above-mentioned tinted window group 10 includes but is not limited thereto. The plurality of colored molded parts 2, the colored molded part 2 has a carrier 21 which is a sheet-like thin part made of a transparent material, which is provided with a top surface and a bottom surface, and a molding color pattern 22 is provided with the carrier On the top surface 211 of the piece 21, the molding color map 22 includes a central color block 23 at the center of the carrier 21 and an array of color block groups 24 radially arranged from the central color block 23, each color block The group 24 is composed of a plurality of color blocks 24a arranged in groups at equal distances between adjacent two, so that these color block groups 24 are arranged around the central color block 23, and are composed of different main hues and according to different concentrations and proportions. Color mixing and matching are arranged in the color block groups 24, so that the forming color map 22 forms a plane hue plane. The colored molded part 2 can be movably arranged on the upper side of the color matching part 1 through the bottom surface 212 of the carrier 21, so that the color block color of the molded color chart 22 can be properly displayed on the solid windows of the hue window group 10 12. Specifically, the aforementioned forming color map 22 includes 126 color blocks, and the aforementioned plurality of color block groups 24 are arranged with at least six groups of color block groups 24 . As shown in Figures 3 and 4, in this embodiment, the six groups of color block groups 24 include a first color block group A1, a second color block group A2, a third color block group A3, a first color block group Four color block groups A4, a fifth color block group A5, a sixth color block group A6, each color block group 24 has the same number of color blocks 24a, and each color block 24a is the same number of angles, as shown in the figure The hexagonal shape is shown so that each hexagonal color block 24a can provide 6 angular directions. Six groups of color block groups 24 (i.e. the first, second, third, fourth, fifth, and sixth color block groups A1, A2, A3, A4, A5, A6) of the molding color map 22 are corresponding to the center color block 23 respectively Arranged adjacent to the central color block 23 at an angle of 60 degrees, the forming color chart 22 forms a hexagonal hue surface, and the six groups of color block groups 24 equally divide the area of the hue surface. In addition, these color block groups 24 are selected from different main hues and other colors or the same hue, and carry out color mixing and matching according to different concentrations, proportions, and lightness, and from light to dark from adjacent to the central color block 23 Or the sequential gradient from thick to light is set on the color block groups 24 . Specifically, the color blocks 24a on the aforementioned colored molded part 2 are adapted to the size of the solid windows 12 on the color matching part 1, and mainly the area of the solid windows 12 is slightly larger than the color blocks 24a area, which is beneficial to the corresponding color blocks 24a and to be circled by the solid windows 12 to display P (as shown in Figures 1, 5, 6, and 7). In the figure, other unselected hue window groups 10 on the color matching component 1 are omitted. Furthermore, the size of the hollow windows 11 may not be suitable for the color blocks 24a. That is to say, the hollow windows 11 and the solid windows 12 in each color window group 10 on the aforementioned color matching part 1 are set to geometric shapes, as shown in the figure, are set as hexagonal shapes, and these hollow windows 12 on the colored molded part 2 The color block 24a is set in a hexagonal shape, and the hexagonal shape is designed with equal diagonals and opposite sides with equal lengths. Further, as shown in Figures 3 and 4, one side of the above-mentioned color block groups 24 and one side of the adjacent color block groups are mutually shared reference columns and are adjacently arranged to form an equal diagonal and The hexagonal hue surface (i.e. molding color figure 22) designed with opposite sides equal in length. For example: the first side of the first color block group A1 is the first reference column 241, and the other side of the first color block group A1 and the side adjacent to the second color block group A2 are the second reference shared by each other row 242 to form an adjoining arrangement, and by analogy, the other side of the second color block group A2 and the side of the adjacent third color block group A3 share the third reference column 243 to form an adjoining arrangement Set, the other side of the third color block group A3 and the side of the adjacent fourth color block group A4 share the fourth reference column 244 to form an adjacent arrangement, and the other side of the fourth color block group A4 The fifth reference column 245 shared by the side and the side adjacent to the fifth color block group A5 forms an adjoining arrangement, and the other side of the fifth color block group A5 is adjacent to the sixth color block group A6 One side of the shared sixth reference column 246 forms an adjoining arrangement, and the other side of the sixth color block group A6 and the first side of the adjacent first color block group A1 are based on the first reference Columns 241 are shared columns and form an adjacent arrangement. Further, through the six groups of color block groups 24 (i.e. the first, second, third, fourth, fifth, and sixth color block groups A1, A2, A3, A4, A5, A6) of the aforementioned forming color map 22, the system corresponds to the center The color blocks 23 are arranged adjacent to and adjacent to the central color block 23 at an angle of 60 degrees. Under this design, referring to Figures 8A, 8B, 8C, and 8D and cooperating with Figure 4, when the respective color hues of each color block group 24 are the same, the gradient lightness of the hue surface color of each color block group 24 is based on The order from light to dark is set to medium-low lightness, medium-high lightness, and high lightness. The gradient purity of the hue surface color of each color block group is set to medium-low purity, medium-low purity, and medium-high purity according to the order from light to dark. . Again, when the respective color hues of each color block group 24 were the same, the gradient lightness of the hue surface color of each color block group 24 was then set as high lightness, medium high lightness, and medium low lightness according to the order from thick to light. The gradient purity of the hue surface color of the block group is set to medium-high purity, medium-low purity, and medium-low purity according to the order from dark to light. Further, referring to Fig. 4 again, through the aforementioned six groups of color block groups 24 (i.e. the first, second, third, fourth, fifth, and sixth color block groups A1, A2, A3, A4, A5, A6) are selected From different main hues and other colors or the same hue, and according to different concentrations, proportions, and lightness, color mixing and matching are carried out, and the corresponding central color blocks 23 are respectively arranged adjacent to the central color block at an angle of 60 degrees. , so that the molding color map 22 on each colored molded piece has a hexagonal hue surface formed by different main hues and other color combinations, and the angle value corresponding to the hexagonal hue surface, the angle value is clockwise from 0 degree ~ 360 degree setting. Under this design, the hexagonal hue surface of the molding color map 22 of this creation includes similar color matching (same color), which means that the position of the hue on the hue surface is about the first reference column 241 (ie about 0 degrees) To the collocation form of about 15 degrees, the two or more colors in this collocation have the same hue in the hue circle, only the difference in lightness and purity. Because the distance between the two colors is very close, they have the same pigment, so the contrast effect is weak. It is called a collocation with very weak contrast. Adjacent color matching refers to the matching form where the position of the hue on the hue plane is about 241 degrees (ie about 0 degrees) to 30 degrees in the first reference column. A combination of medium and weak contrast. The same color matching refers to the matching form where the position of the hue in the hue plane is about 241 (ie about 0 degrees) to about 60 degrees in the first reference column, and the color matching of similar colors and the color matching of adjacent colors belong to the same hue and have changes. Known as a low-contrast collocation. Medium-difference color matching refers to the matching form where the position of the hue on the hue plane is about 241 degrees (ie about 0 degrees) to 90 degrees in the first reference column. , known as weak high-contrast collocation. Contrasting color matching refers to the matching form where the position of the hue on the hue plane is about 241 (that is, about 0 degrees) to 120 degrees in the first reference column. It does not have the same pigment as the degree before 90 degrees, and it is called a match of medium and high contrast. Complementary color matching refers to the matching form in which the position of the hue in the hue plane is about 241 (ie about 0 degrees) to 180 degrees in the first reference column, that is, the colors are at both ends of the diameter of the hue plane, showing two extreme main hues. Accordingly, with the structure of the above-mentioned automatic color matching device 100, its operation mode is shown in Figures 1, 5, 6, and 7; firstly, from the hue planes with different hues of the molding color charts on all colored moldings, proceed Selecting, the main hue of the hue surface of the molding color map on the colored moldings 2 is selected (the coloring molding 2 to be selected is to select a main hue of a group of color block groups 24 in the molding color diagram 22 on it), And according to the rules, select the color matching with the main color in the molding color map 22 of the colored molded part 2, and the colored molded part 2 is arranged on the color matching part 1 corresponding to any color window group 10 and superimposed, and then According to the position distribution relationship of the selected main hue and color matching, the colored molded part 2 can move or rotate relative to the color matching part 1 to produce multiple sets of different color matching, and make the color block 24a of the molded color map 22 displayed on the The solid windows 12 of the tint window group 10 are selected to achieve a color matching effect. Specifically, the implementation of the aforementioned rule of color matching is set as follows: the color block 22 of the colored molded part 2 approaches the solid windows 12 corresponding to the color matching part 1 with the color block 24a on the edge, and the solid windows 12 The relative position is between 60 degrees and 90 degrees, and then it has the matching effect of the area of the same color or the area of the intermediate color. The color pattern 22 of the colored molded part 2 is close to the color matching part with the central color block 23 The solid windows 12 of 1, and the relative positions of the solid windows are between 15 degrees and 30 degrees, so as to have the matching effect of areas of similar colors or areas of adjacent colors, and the molding of the colored molded part 2 In the color map 22, the central color block 23 is close to the solid windows 12 of the color matching piece 1, and the relative positions of the solid windows are between 120 degrees and 180 degrees, and there are regions of contrasting colors or regions of complementary colors With effect. Further, there are the same number of color blocks 24a in each of the color block groups 24, and the aforementioned six groups of color block groups 24 (that is, the first, second, third, fourth, fifth, and sixth color block groups A1, A2, A3, A4, A5, A6) are selected from different main hues and other colors or the same hue, and mix and match colors according to different concentrations, proportions, and brightness, and arrange them adjacently around the central color block, so that each The molding color chart 22 on a colored molded part 2 has a hexagonal hue plane formed by different main hues and other color combinations. By each color block 24a being a hexagonal shape at the same angle, 6 angle directions can be provided, so that the coloring The molded part 2 can be rotated in 6 angles according to the selected main color block, so that the colored molded part can be more flexibly compared and matched with the color matching part to form a different and wonderful color selection performance. The two-dimensional color matching effect is not only convenient for users to search, but also provides a variety of color schemes for users to refer to, quickly completes a variety of color matching functions, improves use efficiency, and increases the practical effect of color matching. Based on the above, an automatic color matching device provided by this creation can be used through the above technical scheme and operation. Through these color block groups, different main colors are set according to different density gradients, so that the molding color on multiple colored molded parts The graph has hue planes of different shades. When in use, according to the positional distribution relationship between the main color and the color matching of the molding color map on the selected colored molding, by moving the colored molding, even if the molding color map corresponds to and overlaps with the color window group selected on the color matching part, It can be observed that the above-mentioned color blocks of different colors are displayed on the solid hexagonal windows to match each other to complete the purpose of color matching. If the user is dissatisfied when adjusting the color, just move or rotate the colored molded part to overlap and correspond to other color window groups on the color matching part, or replace another colored molded part and move the corresponding position on the color matching part, To match and combine two or more colors and quickly select and match different color schemes. In this way, the color matching process can be compared conveniently and accurately, so that the corresponding best color matching can be easily found, multiple color matching functions can be quickly completed, and the difficulty of blind color selection can be solved. The above has described this creation in detail, but the above is only one of the preferred embodiments of this creation, and should not limit the scope of this creation. That is, all equal changes and modifications made according to the application scope of this creation should still be covered by the patent of this creation.

100: Automatic color matching device 1: Color matching parts 10: Hue window group 11:Hollow window 12: Solid window 2: Colored molded parts 21: load 22: Forming color map 23: Center color block 24: Color block group 24a: color block P: display A1, A2, A3, A4, A5, A6: first color block group, second color block group, third color block group, fourth color block group, fifth color block group, sixth color block group 241, 242, 243, 244, 245, 246: first reference column, second reference column, third reference column, fourth reference column, fifth reference column, sixth reference column 0°~360° is the angle value 0 degrees to 15 degrees are similar color matching 0 degrees to 30 degrees are adjacent color matching 0 degrees to 60 degrees for the same color matching 0 degrees to 90 degrees are medium difference color matching 0 degrees to 120 degrees are contrasting colors 0 degrees to 180 degrees are complementary color matching

Figure 1 is a schematic diagram of the combined structure of the automatic color matching device of this creation; Figure 2 is a schematic diagram of the color matching parts in Figure 1; Figure 3 is a schematic diagram of the colored molding in Figure 1; Fig. 4 is a schematic diagram of a molding color diagram of six sets of color block groups in the colored molded part in Fig. 3; Figures 5-7 are operational schematic diagrams of the first, second and third embodiments of the positional relationship between the colored molded part and the color matching part in Figure 1; Figures 8A, 8B, 8C, and 8D are color diagrams of the colored moldings in Figure 3 having different main hues to form hue planes of different hues.

100: Automatic color matching device

1: Color matching parts

2: Colored molded parts

Claims (10)

An automatic color matching device, comprising: At least one color matching part is provided with a plurality of tint window groups, and the tint window group is composed of a plurality of solid windows and a plurality of hollow windows, at least one hollow window is arranged at intervals between the solid windows, and at least one of the solid windows is the sides are arranged in groups with at least one side of each of the hollow windows corresponding to each other; and A plurality of colored molded parts, the colored molded part has a carrier and a molded color map arranged on the carrier, the molded color map has a central color block, and several groups of color blocks are radially arranged around the central color block, The color block groups are respectively composed of different main hues and mixed colors according to different concentration ratios to form a hue surface. The carrier is set on the upper side of the color matching component and is properly displayed on the solid windows of the hue window group. The automatic color matching device as described in claim 1, wherein the color blocks on the colored molded part are adapted to the shape of the solid windows on the color matching part, and the color blocks are slightly smaller than the solid windows, which is beneficial to the Color patches are displayed in the solid windows. The automatic color matching device as described in Claim 1, wherein the number of the solid windows in the hue window group is not more than 5. The automatic color matching device as described in claim 1 or 2, wherein the windows of the hue window group are set in a hexagonal shape, the color blocks on the colored molding are set in a hexagonal shape, and the hexagonal shapes are set in equal pairs The angle is equal to the opposite side. The automatic color matching device as described in claim 1, wherein the formed color map includes 126 color blocks, and at least six groups of color blocks are arranged, and the color block groups are selected from different main hues and other colors or The same hue, and according to different concentrations, proportions, and lightness, color mixing and matching are carried out, and are set from light to dark or from dark to light from adjacent to the central color block, and have the same angle in each color block group color blocks. The automatic color matching device as described in claim 1 or 5, wherein the groups of color blocks of the formed color map are respectively arranged adjacent to the center color block at an angle of 60 degrees to form the hue The surface is in the shape of a hexagon, and the color block groups are evenly divided into the area of the hue surface. The automatic color matching device as described in claim 5, wherein the color hue of each color block group of the formed color map is the same, and the gradient lightness of the hue surface color of each color block group is set to medium-low lightness, medium-low lightness, Medium-high lightness, high lightness, the gradient purity of the hue surface color of each color block group is set to medium-low purity, medium-low purity, and medium-high purity in order from light to dark. The automatic color matching device as described in claim item 5, wherein the color hue of each color block group of the formed color map is the same, and the gradient lightness of the hue surface color of each color block group is set to high lightness, medium according to the order from thick to light High lightness, medium low lightness, the gradient purity of the hue surface color of each color block group is set to medium-high purity, medium-low purity, and medium-low purity in order from thick to light. The automatic color matching device as described in claim 5, wherein the main hue of the hue surface of the molding color map on the colored moldings is selected and selected to match the main hue in the molding color map of the colored moldings according to the rules The color matching, and the colored molded part is set on the color matching part corresponding to any hue window group and stacked, and then the colored molded part is moved or rotated, so that the color block of the molded color map is displayed on the color window group of the hue window group Solid window. The automatic color matching device as described in claim item 9, wherein the rule of the color matching is set as follows: the color block on the edge of the color map of the colored molded part is close to the solid windows corresponding to the color matching part, and the solid windows The relative position of the windows is between 60 degrees and 90 degrees, and then it has the matching effect of the same color area or the intermediate color area. The molding color map of the colored molded part is close to the color matching part with the central color block solid windows, and the relative positions of these solid windows are between 15 degrees and 30 degrees, and then have the matching effect of similar color areas or adjacent color areas, and the molding color map of the colored molded part is based on the center The color block is close to the solid windows of the color matching piece, and the relative positions of the solid windows are between 120° and 180°, so as to have the effect of matching areas of contrasting colors or areas of complementary colors.

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