Approximate blending search system

Information

  • Patent Application
  • 20050044111
  • Publication Number
    20050044111
  • Date Filed
    August 17, 2004
    20 years ago
  • Date Published
    February 24, 2005
    19 years ago
Abstract
The following are included: a material information database constituted by accumulating names of a plurality of blending materials and property information codes constituted by a plurality of identification codes to which a plurality of property informations on the blending materials are respectively related, a blending composition database constituted by accumulating names of compositions, names, property information codes, and blending quantities of the blending materials constituting the compositions, prospective composition search means for approximately searching a corresponding composition from the blending composition data base in accordance with the measurement data input from the input means and/or at least one or more identification codes of the property information codes in an optical blending material, and means for displaying an obtained search result.
Description
FIELD OF THE INVENTION

The present invention relates to an approximate blending search system capable of quickly selecting an approximate composition blending in accordance with measurement data for a composition constituted by a plurality of blending materials in which physiochemical properties are coded.


BACKGROUND OF THE INVENTION

A technique for searching an approximate blending in accordance with certain measurement data by using a database storing the blending of a plurality of compositions and measurement data for the compositions is used for various purposes.


For example, in the case of compositions such as paint, ink, and coloring agent, approximate blending search is performed in accordance with a plurality of blending properties and color measurement data for each paint color. Specifically, a method and an apparatus are proposed which color-measure a desired selected color by using a portable chromatometer, store the color data for the selected color (e.g. color value of CIE Lab, Munsell, or HVC), connect the color data in the chromatometer to a computer, store a plurality of usable color material blendings in the computer, store the color data for each paint designated by the stored usable color material blendings in the computer, compare the color data for the selected color received from the chromatometer with the store color data showing the stored usable color material blendings to find most approximate matching, select the stored color material blending shown by the color data found as the most approximate matching, and thereby perform color matching for the selected color (for example, refer to U.S. Pat. No. 4,813,000). Moreover, the present applicant also proposes a method for searching an approximate color out of stocked colors by using multiangle color measurement data and thereby calculating weighted angle average color difference for a metallic paint color including an effective pigment such as aluminum flake or pearl mica (for example, refer to U.S. Pat. No. 6,750,970).


However, the above conventional method can search a blending composition having a desired paint color but it is difficult to estimate performances of a paint having the blending composition (for example, sedimentation characteristic of paint, impact resistance of paint film, weather resistance of paint film, and color fading characteristic of paint color) by the method. This is because a paint or ink is a composition made of a plurality of blending materials including a coloring pigment and effective pigment for controlling a color and a plurality of combinations of color materials to realize the same color may be present. That is, because blendings of color materials are different for the same paint colors, physiochemical properties (for example, sedimentation characteristic, weather resistance, acid resistance, and finish characteristic) other than color in a pant or paint film are different. Thus, to estimate physiochemical properties other than color, it is necessary to know physiochemical properties and the blending quantity of color materials constituting a color.


In general, however, a color material name is frequently shown by a trade name or prototype name and managed by the trade name or prototype name also in the case of a database. Therefore, it is impossible to consider performances derived from physiochemical properties of blending materials of color materials. Therefore, even if a plurality of prospective blendings are obtained by the search of an approximate paint color using the above color material data, a lot of time is required for study because an engineer well knowing trade names of blending materials selects a blending composition having a necessary physiochemical property out of the prospective blendings through this past experiments. Moreover, when it is determined that a once-selected prospective blending is not proper, it is necessary to newly select another blending. In this case, it is requested to quickly select a new blending composition through a simple treatment.


It is an object of the present invention to provide bending search according to a physiochemical property of a blending material in a composition constituted by a plurality of blending materials such as paint or ink and moreover provide an approximate blending search system capable of quickly selecting an approximate composition blending by properly combining the blending search according to the physiochemical composition with the blending search according to measurement data. More minutely, it is another object of the present invention to provide an approximate blending search system capable of quickly selecting an approximate composition blending out of colors of paint, ink, and plastic constituted by a plurality of color materials in which physiochemical properties are coded.


SUMMARY OF THE INVENTION

The present invention relates to:


1. an approximate blending search system of a composition using a computer constituted by input means, control means, storage means, and display means, characterized in that the following are included: a material information database obtained by accumulating names of a plurality of blending materials and property information codes constituted by a plurality of identification codes to which a plurality of property informations on the blending materials are respectively related, a blending composition database obtained by accumulating names of compositions, the blending material names constituting the compositions and their property information codes, blending quantities, and measurement data according to the compositions every different composition, prospective composition search means for approximately searching a corresponding composition out of the blending composition database in accordance with the measurement data input from the input means and/or at least one or more identification codes of the property information codes in an optional blending material, and means for displaying an obtained search result,


2. the approximate blending search system of the above Item 1, in which prospective composition search means searches a composition in which the difference from purposed measurement data falls under a specific range,


3. the approximate blending search system of the above Item 1, in which prospective composition search means searches a composition including a blending material in which at least one or more identifications of property information codes in an optional blending material coincide with each other,


4. the approximate blending search system of the above Item 1, in which a composition is a color material composition selected from paint, ink, and coloring agent,


5. the approximate blending search system of the above Item 1, in which a blending material is a color material selected from coloring pigment, effective pigment, and dye and measurement data according to compositions using them as components is color measurement data, and


6. the approximate blending search system of the above Item 5, in which property information codes of a blending material and effective pigment are constituted by identification codes to which at least two or more property informations selected from color information, substance name information, size information, and chemical structure information are respectively related.


According to the present invention, by constructing a database obtained by setting a plurality of identification codes to which a plurality of property informations on each of a plurality of blending materials are related and providing property information codes constituted by the identification codes for each of the blending materials, and accumulating the property information codes, it is possible to search the blending composition of paint or ink in accordance with the physiochemical property of a blending material and accurately perform purposed blending search by using a database for storing measurement data derived from a composition for approximate color search together.




BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is a system flow chart for explaining an embodiment of the present invention.




DETAILED DESCRIPTION OF THE INVENTION

A system of the present invention is constituted by incorporating a prospective blending search program having a material information database and a blending composition database into a personal computer body constituted by a CPU, memory, hard disk, CD-ROM driver, DVD-ROM drive, and floppy disk and the personal computer body of a general-purpose personal computer system (hereafter referred to as PC) constituted by an input section including a keyboard and mouse, display portion such as a display, and output portion such as a printer.


The material information database accumulates names of a plurality of blending materials and property information codes constituted by a plurality of identification codes to which a plurality of property informations on the blending materials are related respectively.


It is allowed that the name of each blending material is a trade name having been hitherto provided or a prototype name and a serial number is provided for the same materials.


It is preferable to prepare an identification code table according to a property name and an identification code showing the property name for each property information on various chemical and physical properties. It is preferable that a numeral or alphabet is mainly provided for an identification code from the viewpoint of easiness of search and it is possible to store the information for adding the property information on each identification code to the identification code table by forming a remarks column.


As described above, a property information code constituted by a plurality of identification codes is provided for each blending material and it is possible to express physiochemical properties specific to each blending material which is unknown by a trade name or prototype name which has been hitherto provided for a blending material from a plurality of viewpoints.


For example, when a composition is a color material composition selected from ink or coloring agent and when noticing color materials such as coloring pigment, effective pigment, and dye as the blending material of the color material composition, it is possible to constitute the property information code by an identification code to which at least two or more property informations selected from color information, substance name information, size information, and chemical structure information are related. It is possible to prepare an identification code table for each property information and provide a specific property information code for each coloring pigment and effective pigment in accordance with the table.


The blending composition database accumulates the named of each composition, the name of each of the blending materials constituting the composition and its property information code, blending quantity, and measurement data according to the composition.


It is possible to use a nature value or performance test value of a formed film and molded product by a composition or the nature value of the composition for the measurement data.


For example, when a composition is a color material composition selected from paint, ink, or coloring agent and when noticing a coloring pigment and effective pigment as the blending material of the color material composition, measurement data for a color according to the color material composition is used as measurement data according to the color material composition including the coloring pigment and effective pigment as components.


The prospective blending search program realizes approximate search of a corresponding composition out of the blending composition database in accordance with measurement data input from the input means and/or at least one or more identification codes of property information codes in an optional blending material. Specifically, the program is used to input purposed measurement data, search a composition in which a difference from the measurement data corresponds to a specific range, and moreover input at least one or more identification codes of purposed property information codes and search a composition containing a blending material in which at least one or more identification codes of the property information codes coincide with each other.


EXAMPLE 1

An example of the present invention is specifically described below by citing the case of a paint using a color material such as a coloring pigment or effective pigment as a blending material. (1) Preparation for Identification Code Table


Color informations which can be classified in accordance with color development, substance name informations which can be classified in accordance with chemical composition, size informations which can be classified in accordance with particle diameter, and chemical structure informations which can be classified in accordance with CI Name are selected as property informations on color materials and an identification code table of these informations is prepared as shown below. It is also allowed to increase the number of property informations according to necessity.


First, the color informations can use the hue name of Munsell used for color classification or the hue name of the NCS color system as shown in the following Table 1. For the hue, it is preferable to use a color obtained by diluting the paste obtained by dispersing a coloring pigment in a resin with a white pigment such as titanium white, that is, a hue having a highest chroma. Moreover, when using a color including a quality sense having a shading sense, it is allowed to use silver for aluminum paste. In the case of an interference color such as pearl, it is easily classified by adding a prefix showing “interference”. Identification codes in the color information in Table 1 are only examples. How to add a code name and types of code names are not restricted to those shown in Table 1.

TABLE 1Identification codeColor namewhwhitegygraybkblackreredororangeyeyellowgngreenbgblue-greenblbluevlvioletiyepearl yellow (interference yellow)iblpearl blue (interference blue)slsilver


Then, the substance name informations can use the pigment name in the case of a coloring pigment and the substance name of the base material in the case of an effective pigment as shown in Table 2. Identification codes in the substance name information in Table 2 are only examples but how to add a code name and types of code names are not restricted to those shown in Table 2.

TABLE 2Identification codeSubstance namealoxalminaalmmaluminumbivbismuth vanadatecbcarboncfchroma flaridiodioxazinedppdiketopyrrolopyrroleithindanthronebio cloxi bithmus chloridepcphthalo cyanine bluepcphthalo cyanine greenpeperylenepioplate iron oxidemiomicasuis iron oxidemicanatural pearlqaquinacridoneqdquinoxalinedione azoqphquino phthalonesioxsilica flaketaithiaindigotanzinc ferritetioxtitanium dioxidermicareduction mica


Then, size informations can be classified as shown in Table 3. In the case of coloring pigments, a large pigment having a particle diameter of 0.1 μm or more is the opaque type having a covering power and a small pigment having a particle diameter of 0.1 μm or less is the transparent type which shows designability by mixing with an effective pigment. Because smaller particle diameter further affects weather resistance, it is allowed to show a particle diameter by forming a remarks column in an identification code table according to necessity.


A large particle diameter of an effective pigment provides a micro-quality sense such as a dazzling sense for a paint color and a small particle diameter provides a micro-quality sense such as precise sense or silky sense for the paint color. Therefore, when minutely classifying average particle diameter ranges, it is easy to estimate the finished sate of a paint color.


Identification codes in the size information in Table 3 are only examples and how to add a code name and types of code names are not restricted to those shown in Table 3.

TABLE 3IdentificationcodeSizeParticle diametertrptransparentAverage particle diameterof 0.1 μm or lessopqopaqueAverage particle diameterof 0.1 μm or morevcoavary coaseAverage particle diameterof 25 μm or morecoacoaseAverage particle diameterof 20-25 μmmedmediumAverage particle diameterof 15-20 μmfinefineAverage particle diameterof 10-15 μmvfinevery fineAverage particle diameterof 10 μm or less


Chemical structure informations can be classified in accordance with CI Name, that is, internationally-recognized Color Index Name. For example, there may be some of phthalocyanine blue in the above substance name information, in which pigment stability and hue are different in accordance with a different crystal structure and halogenation degree. Identification codes in the chemical structure information in Table 4 are only examples and how to add a code name and types of code names are not restricted to those shown in Table 4.

TABLE 4Identification codeC.I. NameCommon namepw6PW6titanium whitepbk7PBk7carbon blackpy42PY42iron oxide (yellow)pr101PR101iron oxide (red)pv23PV23dioxazinepr254PR254diketopyrrolopyrrolepb15:1PB15:1phthalocyanine blue α typepb15:3PB15:3phthalocyanine blue β typepb64PB64indanthrone


(2) Material Information Data Table


By properly connecting identification codes according to the above color informations, substance name informations, size informations, and chemical structure informations according to necessity, it is possible to construct a material information data table to which property information code specific to a coloring pigment or effective pigment is provided as shown in Table 5. In the data table, the same property information code is provided for the same materials even if trade names are different.


It is allowed to properly show the covering power, micro-quality sense, and influence of a composition on performance of the material in the material information data table by forming a remarks column in the table according to necessity.

TABLE 5Material nameProperty information codeColoring pigment basedTrade name A (Titanium white)wh-tiox-opq-pw6Trade name B (Micro-titanium)wh-tiox-trp-pw6Trade name C (Carbon black)bk-cb-opq-pbk7Trade name D (Red pigment 1)re-qa-opq-pv19Trade name E (Red pigment 2)re-dpp-opq-pr254Trade name F (Red pigment 3)re-qa-trp-pr202Trade name G (Red pigment 4)re-qa-trp-pr202Trade name H (Red pigment 5)re-pe-trp-pr179Trade name I (Blue pigment 1)bl-pc-trp-pb15:1Trade name J (Blue pigment 2)bl-pc-trp-pb15:1Trade name K (Blue pigment 3)bl-pc-trp-pb15:3Trade name L (Blue pigment 4)bl-pc-trp-pb75Trade name M (Blue pigment 5)bl-ith-trp-pb60Trade name N (Blue-green pigment)bg-pc-trp-pg37Trade name O (Green pigment)gn-pc-trp-pg7Trade name P (Violet pigment)vi-dio-trp-pv23Effective pigment basedTrade name Q (Aluminum paste 1)sl-almm-vcoaTrade name R (Aluminum paste 2)sl-almm-coaTrade name S (Aluminum paste 3)sl-almm-medTrade name T (Aluminum paste 4)sl-almm-fineTrade name U (Colored aluminum)ye-almm-vcoaTrade name V (Colored aluminum)or-almm-coaTrade name W (Interference white mica)iwh-micaTrade name X (Interference gold mica)iye-micaTrade name Y (Interference blue mica)ibl-micaTrade name Z (Multicolor chromaflare)iml-cf


(3) Construction of Paint Color Database


Spectral reflectances of finish-coating paint colors of approx. 3,000 colors (including 2,900 metallic paint colors) for vehicle outer plate which are stock colors prepared in the past are measured by the portable variable-angle spectrophotometer MA68 (incident at 45° and light receiving at 15°, 25°, 45°, 75°, and 110°) made by US X-Rite Inc. and paint colors and 5°-angle Lab* values of the color measurement values of the finish-coating paint colors are stored in the memory of a computer. Moreover, each color material name in the blending composition of each stock color and its property information code and blending quantity are also stored in the computer.


It is allowed that a database is present in the memory of a local personal computer or in a server on Internet connected through LAN.


(4) Prospective Blending Search


The approximate blending search according to the above paint color database is described below by referring to FIG. 1. FIG. 1 is a system flow chart for explaining an example.


An optional metallic paint color (including aluminum pastes 2 and 3, blue pigments 1 and 5, and carbon black as color materials) is selected out of the paint color database to perform approximate search on whether an approximate color is present in the database on the basis of the selected metallic paint color. The approximate search conforms to approximate color calculation for calculating the color difference dE* specified in JIS Z8730 from the Lab* value of five angles. In the case of the approximate color calculation, a “weighted angle average color difference” is calculated which is obtained by multiplying each angle and L* value by a weighted coefficient so as to relate to visual observation of a person as disclosed in U.S. Pat. No. 6,750,970. The “weighted angle average color difference” is hereafter merely referred to as “color difference”.


As the color difference decreases, a paint color approximate to a reference color is obtained and 25 paint colors having color differences of 7 or less are output starting with a paint color having the smallest color difference (approximate output a).


Then, a paint color including a color material having a property information code same as that of a color material included the reference color is searched. In this case, it is also allowed to search a paint color including property information codes of all of five color materials included in the reference color. It is allowed to search a paint color including property information codes of the aluminum paste 2 and blue pigment 4 among the five color materials. Actually, it is proper to search a paint color including color materials in which only identification codes having a purposed property coincide with each other among property information codes as an approximate composition.


Specifically, as a result of inputting (s1-almm)×(b1-ith-trp)×(b1-pc-trp) as a search character string, 43 paint colors coincide with each other (approximate output b).


The number of paint colors which are logical products of the above approximate search results a and b is five. Moreover, as a result of inputting (s1-almm-coa)×(s1-almm-med)×(b1-ith-trp)×(b1-pc-trp) by adding an identification code which is the size information in order to approximate the quality sense of aluminum, the number of paint colors which are logical products between a and b is two.


By outputting search results which are logical products between a and b starting with a result having the smallest color difference, it is possible to perform search of not only color matching but also approximation of color material composition and display approximate blending which is a search result on the screen of a personal computer.


A system of the present invention can perform the blending composition search considering a performance derived from the physiochemical property of a blending material included in a composition. Particularly, in the field of color material composition, by combining the conventional approximate color search with the search according to a property information code, it is possible to use the combination for estimation of the performance of paint or ink including a color material having the blending composition. Moreover, by storing not only the color measurement value at the beginning of painting but also a color measurement value after exposure of the painted plate to the outdoors or an accelerated weather resistance test in a database, it is possible to apply the database as means for confirming the discoloration of a paint color in approximate blending.

Claims
  • 1. An approximate blending search system of a composition using a computer system constituted by input means, control means, storage means, and display means, comprising: a material information database constituted by accumulating names of a plurality of blending materials and property information codes constituted by a plurality of identification codes to which a plurality of property informations on the blending materials are respectively related; a blending composition database constituted by accumulating names, property information codes, and blending quantities of the compositions, and measurement data by the compositions every different composition; prospective composition search means for approximately searching a corresponding composition from the blending composition database in accordance with the measurement data input from the input means and/or at least one or more identification codes of property information codes in an optional blending material; and means for displaying an obtained search result.
  • 2. The approximate blending search system according to claim 1, characterized in that prospective composition search means searches a composition in which a difference from purposed measurement data is kept in a specific range.
  • 3. The approximate blending search system according to claim 1, characterized in that prospective composition search means searches a composition including a blending material in which at least one or more identification codes of the property information codes in an optional blending material coincide with each other.
  • 4. The approximate blending search system according to claim 1, characterized in that a composition is a color material composition selected from paint, ink, and coloring agent.
  • 5. The approximate blending search system according to claim 1, characterized in that a blending material is a color material selected from a coloring pigment, effective pigment, and dye and measurement data according to a composition having them as components is color measurement data.
  • 6. The approximate blending search system according to claim 5, characterized in that property information codes of a coloring pigment and an effective pigment are constituted by identification codes to which at least two or more property informations selected from color information, substance name information, size information, and chemical structure information are respectively related.
Priority Claims (1)
Number Date Country Kind
2003-294910 Aug 2003 JP national