JP2017207347A - Color inspection acceptance determining device, and color inspection acceptance determining method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a color inspection acceptance determining device and a color inspection acceptance determining method, in which area range specification can be intuitively performed, and in which an area range after the specification in particular is easily visible, in a color inspection for conducting acceptance determination of whether an object color is in a reference range or not.SOLUTION: A color inspection acceptance determining device includes: a colorimetric sensor 12 for acquiring an XYZ value of an object; an area range specification part 14 for specifying an area range of the XYZ value used as a determination reference; an area range setting part 16 for setting the specified area range as the reference; a color inspection acceptance determination part 18 for determining whether an acquired colorimetric value is in the set area range or not; an area range display setting part 24 constituted of a two-dimensional graph display setting part 28 and a numeral display setting part 30; and a display device 22 in which an acceptance determination display part 26 is displayed. The color inspection acceptance determining device is configured to permit area range specification according to one of the display setting parts 28 and 30, and when an area range is specified, the data is mutually displayed in both display setting parts, and the color inspection acceptance determination part 18 displays a determination result in the acceptance determination display part 26.SELECTED DRAWING: Figure 1

Description

  According to the present invention, in a color inspection for determining whether or not the color of an object to be inspected (for example, printed matter) is within a reference range, the reference range can be easily specified, and the reference after the specification The present invention relates to a color inspection pass / fail determination device and a color inspection pass / fail determination method in which a range is easily visible and the result of pass / fail determination is also easily visible.

  Conventionally, in a color inspection for determining whether or not an object color is within a reference range, light is emitted from the light source to the inspection object, and a colorimetric value XYZ of the light reflected thereby is obtained. For the XYZ values input from the colorimetric sensor configured as described above, a method of determining whether or not a predetermined pass / fail criterion is satisfied has been adopted. At this time, in the XYZ color system, since the color is expressed by a three-dimensional value, there is a problem that it is difficult to intuitively discriminate when the pass / fail criterion is displayed in text (see FIG. 8).

  In addition, in the case of only numerical display, since there are many regions outside the visible color gamut in the XYZ color system, it is very difficult to determine whether or not the specified numerical value is included in the visible color gamut. There was also. And, it is meaningless to set the area not included in the visible color gamut as the pass determination area range, so specify / set the pass / fail determination area range so that the area outside the visible color gamut is not included as much as possible. It is desirable to do.

  For example, Patent Literature 1 includes a data processing unit to which colorimetric color data is supplied, an operation unit for supplying control data to the data processing unit, and an image display unit for displaying a processing result by the data processing unit. And the data processing unit receives an operation input from the operation unit and performs data processing for displaying the color data as a graph on a color space together with a color difference allowable range on the image display unit. A data processing device is disclosed, and in this colorimetric data processing device, the data processing unit accepts an operation for specifying the color difference allowable range by an operation of the operation unit, and a color difference allowable range in which the color data is specified In addition, the data processing to be displayed on the image display unit as a graph on the color space is performed, and the data processing unit includes the color data within a color difference allowable range. Luke has to perform the whether the determination process.

  According to this technique, a desired display color space can be specified by the operation unit, and color data can be displayed on the image display unit together with the color difference allowable range as a graph on the display color space. Based on the display content of the image display unit, it is possible to easily determine whether or not the color data is within a color difference allowable range in a desired display color space, and also immediately determine the color shift direction. Is going to be able to.

  Furthermore, a desired color difference allowable range can be specified by the operation unit, and color data together with the color difference allowable range can be displayed as a graph on the color space on the image display unit, and the user can display the image display unit. Based on the contents, it is possible to easily determine whether or not the color data is within a desired color difference tolerance range, and whether or not the measured color data is within the color difference tolerance range is determined by data It can be performed quantitatively by the processing unit.

  Further, Patent Document 2 discloses a measuring unit that measures the color of a predetermined point of a reference printed material and the color of the predetermined point of the inspected printed material, and the color of the reference printed material measured by the measuring unit and the inspected printed material. Determination means for determining the quality of each printed matter according to a difference from the color of the coating liquid, coating liquid fluctuation detecting means for detecting fluctuations in the coating liquid concentration and the liquid viscosity of each color from the data obtained by the measuring means, and Color variation detecting means for detecting partial density and color variations in the printed material surface from data obtained from a plurality of predetermined measurement points by the measuring device, and the color of the entire printed material relative to the color of the reference printed material by the measuring device. There is disclosed a printed material quality management apparatus comprising: a variation direction determining unit that determines a difference between colors and a direction of color variation; and a totaling unit that tabulates the determination results of the determining unit for each lot of the printed material. Furthermore, the predetermined And image display of the printed matter the position of the measurement point is indicated, the brightness difference between the determination result of each point, the color difference, and that comprises a display means for graphically displaying the concentration, and the like. According to this technique, even an unskilled young person can recognize the pass / fail judgment of color and the direction of color change.

JP-A-6-242757 Japanese Patent Laid-Open No. 10-315436

  However, the colorimetric data processing device disclosed in the above-mentioned Patent Document 1 certainly has an image display unit together with a color difference allowable range in which color data is designated as a graph on a selected display color space (RGB space or XYZ space). Therefore, it is possible for the user to determine whether the color data is within a desired color difference tolerance range, but the specified color difference tolerance range is two-dimensionally displayed in the selected display color space. Since it is only shown in a three-dimensional graph, it is difficult to specify an intuitive range.

  For example, even if a two-dimensional graph in the XYZ space is selected and the specified color difference tolerance range is displayed on the graph, for example, an area outside the visible color gamut in the XYZ display system is specified with the keyboard or mouse. In such a case, the pass / fail judgment has no meaning, so it has to be specified again, and further improvements have been required in terms of setting efficiency.

  The printed material quality control device disclosed in Patent Document 2 certainly displays an image of the printed material showing the position of the measurement point, and the color difference between each colorimetric point and the reference value. The determination result as to whether it is within the predetermined allowable range is displayed graphically, but the allowable range cannot be specified by the user, and of course, the intuitive range cannot be specified, and it is said that the usability is poor.

  The present invention is to solve the above-described problems, and in color inspection for performing pass / fail determination (color inspection pass / fail determination) as to whether or not the color of an object to be inspected is within the reference range, To provide a color inspection pass / fail determination device and a color inspection pass / fail determination method that can be specified intuitively, and that the reference range after the specification can be easily viewed, and that the result of pass / fail determination is also easily visible. .

In order to cope with the above-described problems, the present invention takes the following technical means.
That is, the invention described in claim 1 is a colorimetric sensor that irradiates light to a color inspection object and acquires an XYZ value of light reflected from the color inspection object, and the color inspection object. An area range designating unit for designating an area range of XYZ values used as a criterion for pass / fail judgment in color inspection, and an area range setting for setting the area range of XYZ values designated by the area range designating unit as criteria for pass / fail Pass / fail determination of whether or not the colorimetric value of the light reflected from the color inspection object acquired by the colorimetric sensor is within the region range of the XYZ value set by the region range setting unit A color inspection pass / fail determination unit and a display device that displays a predetermined GUI on a screen, and the GUI includes an area range display setting unit and a pass / fail determination display unit, The area range display setting section The display setting unit is divided into a display setting unit using a two-dimensional graph and a display setting unit using a numerical value, and the region range specifying unit is one of the display setting unit using the two-dimensional graph and the display setting unit using a numerical value. The region range of the XYZ value used as a criterion for the pass / fail judgment can be specified by an operation through the unit, and when the region range is specified, the region range setting unit displays the XYZ value. The data indicating the region range is displayed in real time through the operated display setting unit and the other display setting unit, and the color inspection pass / fail determination unit displays the pass / fail determination result in the pass / fail determination display unit. A color inspection pass / fail determination apparatus characterized by being displayed through the display.

  The invention according to claim 2 is the color inspection pass / fail determination apparatus according to claim 1, wherein the display setting unit based on the two-dimensional graph displays from three planes of an XY plane, a YZ plane, and a ZX plane. A visible color gamut boundary when a plane that is used for setting is selected and a two-dimensional graph is displayed on the selected plane and a dimension that is not displayed on the selected plane is set as the coordinates of the reference point, While displaying using a predetermined color on the two-dimensional graph displayed on the selected plane, each coordinate point when the dimension not displayed on the selected plane is set as the coordinate of the reference point, It is characterized by being displayed on a two-dimensional graph displayed on the selected plane by color.

  Further, the invention described in claim 3 is the color inspection pass / fail determination apparatus according to claim 2, wherein the display setting unit based on the two-dimensional graph includes a predetermined number of XYZ values acquired in the past by the colorimetric sensor. Alternatively, a predetermined number of XYZ values acquired simultaneously by the colorimetric sensor can be plotted and displayed on a two-dimensional graph on the selected plane. The invention described in claim 4 is the color inspection pass / fail determination apparatus according to any one of claims 1 to 3, wherein the display setting unit based on the two-dimensional graph covers a desired range on the two-dimensional graph. It is characterized in that the region range can be specified by surrounding it with a specification frame. The invention described in claim 5 is the color inspection acceptance / rejection determination device according to any one of claims 1 to 4, wherein the numerical display setting unit includes a reference value for each value of XYZ for performing the designation. In addition, an input box that allows the area range to be specified by inputting a numerical value of the allowable range is displayed.

  The invention according to claim 6 is an area range in which an area range of XYZ values used as a criterion for pass / fail judgment in color inspection of a color inspection object is specified through a predetermined GUI displayed on the screen of the display device. A step of specifying, a region range setting step of setting the region range of the XYZ values specified in the region range specifying step as a criterion for the pass / fail judgment, irradiating the color inspection target with light, and the color inspection target A colorimetric value acquisition step for acquiring an XYZ value of light reflected from an object, and a colorimetric value of light reflected from the color inspection object acquired in the colorimetry value acquisition step are set in the region range setting. A color inspection pass / fail determination step for determining whether or not the region is within the region range of the XYZ values set in the step, wherein the region range designation step includes a region range display A region range is specified through a GUI including a determination unit and a pass / fail determination display unit, and the region range display setting unit includes a two-dimensional graph display setting unit and a numerical display setting unit. Specify the region range of the XYZ values used as the criterion for the pass / fail judgment by operating through either the display setting unit using the two-dimensional graph or the display setting unit using numerical values. When the area range is specified, the data indicating the area range of the XYZ values is displayed in real time through the operated one display setting unit and the other display setting unit, and The color inspection pass / fail determination step is a color inspection pass / fail determination method that displays the result of the pass / fail determination through the pass / fail determination display unit.

  The invention according to claim 7 is the color inspection pass / fail determination method according to claim 6, wherein the region range specifying step is performed in the XY plane, the YZ plane, and the ZX plane in the display setting unit based on the two-dimensional graph. Visible color when one plane used for display setting is selected from the three planes, a two-dimensional graph is displayed on the selected plane, and a dimension that is not displayed on the selected plane is set as the coordinates of the reference point The region boundary is displayed using a predetermined color on the two-dimensional graph displayed on the selected plane, and each coordinate point when the dimension not displayed on the selected plane is set as the coordinate of the reference point is displayed. The brightness and color are displayed on a two-dimensional graph displayed on the selected plane.

  Further, the invention described in claim 8 is the color inspection pass / fail determination method according to claim 7, wherein the region range specifying step is performed in the past by the colorimetric value acquisition step in the display setting unit based on the two-dimensional graph. The predetermined number of XYZ values acquired or the predetermined number of XYZ values acquired simultaneously by the colorimetric value acquisition step are displayed in a plot on the two-dimensional graph on the selected plane. Furthermore, the invention according to claim 9 is the color inspection pass / fail determination method according to any one of claims 6 to 8, wherein the region range specifying step is displayed on the display setting unit by the two-dimensional graph. The region range is designated by enclosing a desired range on a two-dimensional graph with a range designation frame. The invention according to claim 10 is the color inspection pass / fail determination method according to any one of claims 6 to 9, wherein the numerical value display setting unit includes a reference value of each value of XYZ for performing the designation. An input box that allows numerical input of the area range is displayed, and the area range specifying step specifies an XYZ value area range as a criterion for the pass / fail judgment by an operation through the input box. It is a feature.

  According to the present invention, it is possible to easily set and change the pass / fail judgment criteria in the color inspection of the object to be inspected, and to intuitively check the set pass / fail judgment criteria with a two-dimensional graph. In addition, since the values of the XYZ color system can be illustrated on the GUI, for example, conversion from the XYZ color system to another color system such as the Yxy color system becomes unnecessary, and as a result, conversion Calculation errors that occur in the process can also be eliminated.

1 is a schematic configuration diagram illustrating an embodiment of a color inspection pass / fail determination apparatus according to the present invention. It is the figure which showed the structure of GUI in embodiment of the color inspection pass / fail determination apparatus which concerns on this invention. The display setting part by the two-dimensional graph in embodiment of the color inspection pass / fail determination apparatus concerning this invention is shown, (a) represents XY plane, (b) represents YZ plane, (c) represents ZX plane. . 5 is a flow showing an embodiment of a color inspection pass / fail determination method according to the present invention. It is the flow which showed the area range designation | designated and the setting by the numerical value in embodiment of the color inspection pass / fail determination method based on this invention. It is the flow which showed the area range designation | designated and setting by the two-dimensional graph in embodiment of the color inspection pass / fail determination method based on this invention. It is the flow which showed the pass / fail determination in the embodiment of the color inspection pass / fail determination method according to the present invention. It is the figure which showed the conventional pass / fail criterion setting screen.

  An embodiment of a color inspection pass / fail determination apparatus and a color inspection pass / fail determination method according to the present invention will be described with reference to the drawings. FIG. 1 is a schematic configuration diagram showing an embodiment of a color inspection pass / fail determination apparatus according to the present invention, and FIG. 2 is a GUI (Graphical User Interface) in the embodiment of the color inspection pass / fail determination apparatus according to the present invention. 3 is a diagram showing a display setting unit based on a two-dimensional graph in the embodiment of the color inspection pass / fail determination apparatus according to the present invention. FIG. 3A is an XY plane, and FIG. The YZ plane (c) represents the ZX plane.

  FIG. 4 is a flowchart showing an embodiment of the color inspection pass / fail determination method according to the present invention, and FIG. 5 shows numerical range range designation and setting in the embodiment of the color inspection pass / fail determination method according to the present invention. FIG. 6 is a flowchart showing the region range designation and setting by the two-dimensional graph in the embodiment of the color inspection pass / fail determination method according to the present invention, and FIG. 7 is the color inspection pass / fail determination method according to the present invention. It is the flow which showed the pass / fail determination in the embodiment.

  Also, with respect to the codes, 10 is a color inspection pass / fail determination device, 12 is a colorimetric sensor, 14 is an area range designation unit, 16 is an area range setting unit, 18 is a color inspection pass / fail determination unit, 20 is a GUI, and 22 is a display device. , 24 is an area range display setting section, 26 is a pass / fail judgment display section, 28 is a display setting section using a two-dimensional graph, 30 is a numerical display setting section, 32 is a radio button, 34 is a cursor, 36 is a reference point, and 38 is A colorimetric value, 40 is a pass / fail boundary (region range), and 42 is an input box.

  As shown in FIG. 1, the color inspection pass / fail determination apparatus 10 in the present embodiment irradiates light on a color inspection target and measures XYZ values of light reflected from the color inspection target. A color sensor 12, a region range designation unit 14 for designating a region range of XYZ values that are used as a criterion for pass / fail judgment in color inspection of a color inspection object, and a region range of XYZ values designated by the region range specification unit 14 The area range setting unit 16 that is set as a criterion for pass / fail judgment, and the colorimetric values of light reflected from the color inspection object acquired by the colorimetric sensor 12 are the areas of the XYZ values set in the area range setting unit 16 A color inspection pass / fail determination unit 18 that performs pass / fail determination as to whether or not it is within the range, and a display device 22 that displays a predetermined GUI 20 on the screen are provided.

  In this embodiment, the colorimetric sensor 12 is a photoelectric sensor having a spectral sensitivity equivalent to the XYZ color matching function, the spectroscope, and the XYZ value multiplied by a coefficient so that the spectroscope output becomes the XYZ color matching function. It is preferable to use an apparatus having an output mechanism and an apparatus including a one-dimensional or two-dimensional image sensor having a spectral sensitivity equivalent to an XYZ color matching function. In addition, if the colorimetric sensor 12, the area range specifying unit 14, the area range setting unit 16, the color inspection pass / fail determination unit 18, and the GUI 20 are configured as one device, it can be installed in a small space, and the user The effect is that it becomes easier to handle.

  In the color inspection pass / fail determination apparatus 10 according to the present embodiment, as shown in FIG. 2, the GUI 20 includes an area range display setting unit 24 and a pass / fail determination display unit 26, and an area range display setting unit 24 is divided into a display setting unit 28 based on a two-dimensional graph and a display setting unit 30 based on a numerical value. The region range specifying unit 14 is either a display setting unit 28 based on a two-dimensional graph or a display setting unit 30 based on a numerical value. By an operation through one of these display setting units, an area range (pass / fail boundary) of XYZ values as a reference for pass / fail judgment can be specified.

  When the area range is specified, the area range setting unit 16 causes the data indicating the area range of the XYZ values to be displayed in real time through one display setting unit and the other display setting unit. Furthermore, the color inspection pass / fail determination unit 18 is configured to display the pass / fail determination result through the pass / fail determination display unit 26.

  For example, as shown in FIG. 2, if a pass / fail boundary (region range) is specified by a frame in the display setting unit 28 using a two-dimensional graph with a cursor 34 operated by a pointing device, the region range setting unit 16 A reference value and an allowable range are calculated from the data, and are reflected and displayed as numerical values in real time through the numerical display setting unit 30. Conversely, if the reference value and the pass / fail boundary (region range) are designated by numerical values in the numerical display setting unit 30, the region range setting unit 16 calculates the reference point and the pass / fail boundary (region range) from the data. It is reflected and displayed in real time through the display setting unit 28 using a two-dimensional graph.

  In this embodiment, the cursor 34 is displayed by an arrow or a crosshair, the pointing device is a mouse, a track pad, a button for instructing movement in the up / down / left / right direction, and a dial for instructing movement in the up / down / left / right direction. It is preferable to constitute the above. Also, in this figure, the numerical display setting unit 30 has a plurality of input boxes 42 arranged side by side, and the three input boxes 42 on the left are used to input XYZ reference values numerically, and the right 3 The two input boxes 42 are used to input numerical values for the XYZ area ranges.

  Further, in the present embodiment, as shown in FIG. 2, the display setting unit 28 based on the two-dimensional graph moves the cursor 34 operated by the pointing device on the screen, and displays the XY plane, YZ plane, and ZX plane. One plane used for display setting is selected from among the three planes by the radio button 32, and a two-dimensional graph is displayed on the selected plane. In this figure, the XY plane is selected.

  Then, a visible color gamut boundary when a dimension that is not displayed on the selected plane (in this figure, Z is set) is set as the coordinates of the reference point is predetermined on the two-dimensional graph displayed on the selected plane. Each coordinate point is selected by its brightness and color when a dimension that is not displayed on the selected plane (in this figure, Z is displayed) is set as the reference point coordinate. It is displayed on a two-dimensional graph displayed on the plane.

  In the figure, inside the visible color gamut boundary, each coordinate point is expressed by gradation by brightness and color, and outside the visible color gamut boundary, that is, outside the visible color gamut is expressed by diagonal lines. . The reference point 36 is represented by a black circle, and the colorimetric value 38 is represented by a white circle. Here, two colorimetric values 38 represented by white circles are plotted in the figure. This is because a predetermined number of past colorimetric values recorded in a memory (not shown) are stored. (2 times in this figure) is displayed. Further, for example, when a plurality of inspection areas are set in the color inspection object, a plurality of colorimetric values 38 acquired simultaneously in each inspection area may be plotted by a predetermined number of white circles. . Further, the pass / fail boundary (region range) 40 is expressed by a range surrounded by a square frame.

  Subsequently, in the present embodiment, the pass / fail judgment criterion is configured by only a reference point and a pass / fail boundary (region range) or a pass / fail boundary (region range). In other words, among the three dimensions of XYZ, at least one dimension or more is set as two indices including a reference value and an allowable range (region range) that is adjusted with respect to the reference value. Moreover, in a pass / fail determination, it is good also as what is represented by two parameters | indexes which consist of the upper limit and lower limit of the range (passing range) made pass. In this case, the upper limit of the pass range is equal to the reference value + the allowable range, and the lower limit of the pass range is equal to the reference value−the allowable range.

  Next, in the present embodiment, the criteria for pass / fail judgment when color inspection is performed in the XYZ color system is not only set by directly inputting numerical values in the numerical display setting unit 30 shown in FIG. On the two-dimensional graph shown on the GUI 20, the setting can also be made by the cursor 34 operated by the pointing device. As shown in FIGS. 2 and 3, the two-dimensional graph can be displayed by switching between three types of planes, that is, the XY plane, the YZ plane, and the ZX plane.

  Further, as shown in FIGS. 2 and 3, the two-dimensional graph has a predetermined visible color gamut boundary when the dimension not displayed takes the coordinates of the reference point so that the coordinates inside and outside the visible color gamut can be discriminated. Draw in color, and plot coordinate points outside the visible color gamut with colors that are outside the visible color gamut (represented by diagonal lines in the figure). In other words, when the XY plane is selected, the Z dimensionality draws the visible color gamut boundary when taking the coordinates of the reference point in a predetermined color, and the coordinate point outside the visible color gamut is out of the visible color gamut. It is made to plot by the color which shows.

  In addition, as shown in FIGS. 2 and 3, the two-dimensional graph has coordinates when the dimension that is not displayed takes the coordinates of the reference point so that the brightness and color in the visible color gamut can be visually identified. Plot on a 2D graph using brightness and color at points. That is, when the XY plane is selected, the dimension of Z is plotted (filled) on the two-dimensional graph with no gaps using the brightness and color at each coordinate point when taking the coordinates of the reference point. It is.

  Further, the area range setting unit 16 calculates a reference point and a pass / fail boundary (area range) from the data when the area range is specified numerically by the area range specifying unit 14 through the numerical display setting unit 30, and a two-dimensional graph is calculated. Is displayed on the two-dimensional graph being displayed on the display setting unit 28 (see FIG. 5). When the region range is specified by the region range specifying unit 14 through the two-dimensional graph displayed on the display setting unit 28 using the two-dimensional graph, the reference value and the allowable range (region range) are calculated, and the numerical display setting is performed. It is comprised so that it may display as a numerical value on the part 30 (refer FIG. 6).

  Subsequently, an embodiment of a color inspection pass / fail determination method according to the present invention will be described. In the color inspection pass / fail determination method according to the present embodiment, as shown in FIG. 4, first, the designation of the area range of XYZ values used as a reference for pass / fail determination in the color inspection of the color inspection object is displayed on the screen of the display device. A region range specifying step (S1) performed through a predetermined GUI, a region range setting step (S2) for setting the region range of the XYZ values specified by the region range specifying step (S1) as a criterion for pass / fail judgment, Acquired in the colorimetric value acquisition step (S3) and the colorimetric value acquisition step (S3) for irradiating the color inspection object with light and acquiring the XYZ values of the light reflected from the color inspection object Color test pass / fail for determining whether or not the colorimetric value of the light reflected from the target color test object is within the region range of the XYZ values set in the region range setting step (S2) It is intended to include a constant step (S4).

  In the area range designation step (S1), the area range is designated through a GUI including the area range display setting unit and the pass / fail judgment display unit, and the region range display unit is based on a two-dimensional graph. Using a display setting unit and a numerical display setting unit, the pass / fail judgment is made by an operation through either the two-dimensional graph display setting unit or the numerical display setting unit. The area range of the XYZ value used as a reference is designated, and when designated, the data indicating the area range of the XYZ value is mutually displayed in real time through the one display setting section and the other display setting section. It is a flow (S2-1). Further, the color inspection pass / fail determination step (S4) is configured to display the pass / fail determination result through the pass / fail determination display section (S5).

  Subsequently, in the region range specifying step (S1), for example, as shown in FIG. 2, the cursor 34 operated by the pointing device is used to specify the region range with a frame in the display setting unit 28 based on the two-dimensional graph. For example, in the region range setting step (S2), as shown in FIG. 6, if the reference point is not set, the reference value and the allowable range are calculated from the data, and if the reference point is set, Only the allowable range is calculated from the data, and it can be reflected and displayed as a numerical value in real time through the numerical display setting unit 30 (S2-1).

  On the contrary, if the region setting range is designated by a numerical value in the numerical display setting unit 30, the reference point and the pass / fail boundary are calculated from the data in the region range setting step (S2) as shown in FIG. The region range can be reflected and displayed in real time through the display setting unit 28 using a two-dimensional graph (S2-1).

  In this embodiment, the configuration of each display setting unit (28, 30) shown in FIG. 2 is the same as that described in the above-described embodiment of the color inspection pass / fail determination apparatus.

  Subsequently, in the area range setting step (S2), when the area range is set numerically through the numerical display setting unit 30 in the area range specifying step (S1), the reference point and the pass / fail boundary are set in the area range setting step (S2). Is displayed on the two-dimensional graph being displayed on the display setting unit 28 based on the two-dimensional graph. That is, as shown in FIG. 5, first, a reference point is calculated, then a region range that is a pass / fail boundary is calculated, and the result is displayed on a two-dimensional graph.

  When the region range is set through the two-dimensional graph displayed on the display setting unit 28 using the two-dimensional graph in the region range specifying step (S1), the reference value and the allowable range are set in the region range setting step (S2). It is configured to calculate and display as numerical values on the numerical display setting unit 30.

  Specifically, as shown in FIG. 6, it is first determined whether or not a reference point is set. If a reference point is set, only the allowable range is calculated and the reference point must be set. For example, the reference value and the allowable range are calculated, and the result is displayed as a numerical value.

  Subsequently, in the colorimetric value acquisition step (S3), the color inspection object is irradiated with light, and the XYZ values of the light reflected from the color inspection object are acquired. Then, in the color inspection pass / fail determination step (S4), whether or not the XYZ values acquired and input in the colorimetric value acquisition step (S3) are within the region range set in the region range setting step (S2). That is, it is determined whether or not it is within the criteria for pass / fail determination.

  Specifically, as shown in FIG. 7, first, it is checked whether or not the input value to be determined remains (check whether or not there is a determination wait). If it is determined that the result is “pass”, and the remaining value is determined, it is determined whether or not the input remaining value is within the criterion of the pass / fail determination. If it is out of pass / fail criteria, it will be judged as “fail” regardless of the presence of the remaining input values, and if it is within the pass / fail criteria, go back to the previous step. .

  When returning to the previous step, it is checked whether or not the input value of the judgment target remains, and if it does not remain, it is assumed that all have passed, and if it remains Then, it is determined again whether or not the input value is within the criteria for the pass / fail determination. In the final step (S5), “pass” or “fail” determined in these steps (S4) is displayed through the pass / fail determination display section 26 (S5).

  The color inspection pass / fail determination apparatus and the color inspection pass / fail determination method according to the present invention can easily set and change the pass / fail determination criteria in the color inspection of the inspected object, and the set pass / fail determination criteria by a two-dimensional graph. Since it can be confirmed intuitively, it can be used regardless of the skill level in the color inspection technique.

DESCRIPTION OF SYMBOLS 10 Color inspection pass / fail determination apparatus 12 Colorimetric sensor 14 Area range designation | designated part 16 Area range setting part 18 Color inspection pass / fail determination part 20 GUI
22 Display Device 24 Area Range Display Setting Unit 26 Pass / Fail Display Unit 28 Display Setting Unit 30 by Two-Dimensional Graph 30 Numeric Display Setting Unit 32 Radio Button 34 Cursor 36 Reference Point 38 Colorimetric Value 40 Pass / Fail Boundary 42 Input Box

Claims (10)

A colorimetric sensor that irradiates the color inspection object with light and acquires an XYZ value of light reflected from the color inspection object;
An area range designating unit for designating an area range of XYZ values as a criterion for pass / fail judgment in color inspection of the color inspection object;
An area range setting unit that sets the area range of the XYZ values specified by the area range specifying unit as a criterion for pass / fail judgment;
Color inspection for determining whether or not the colorimetric value of the light reflected from the color inspection object acquired by the colorimetric sensor is in the region range of the XYZ value set in the region range setting unit A pass / fail judgment unit;
A display device that displays a predetermined GUI on a screen;
With
The GUI is configured to include an area range display setting unit and a pass / fail determination display unit,
The region range display setting unit is divided into a display setting unit based on a two-dimensional graph and a display setting unit based on a numerical value.
The region range designation unit determines the region range of the XYZ values used as a criterion for the pass / fail judgment by an operation through either the display setting unit based on the two-dimensional graph or the display setting unit based on the numerical value. When the region range is specified, the region range setting unit is configured to specify the region range of the XYZ value and the other display setting unit and the other display A color inspection pass / fail determination apparatus, wherein the color inspection pass / fail determination section displays the result of the pass / fail determination through the pass / fail determination display section.   The display setting unit based on the two-dimensional graph is configured to select one plane used for display setting from the three planes of the XY plane, the YZ plane, and the ZX plane, and to display the two-dimensional graph on the selected plane. The visible color gamut boundary when a dimension that is not displayed on the selected plane is set as the coordinates of the reference point is displayed using a predetermined color on the two-dimensional graph displayed on the selected plane, and The coordinate point when a dimension that is not displayed on the selected plane is set as the coordinate of the reference point, is displayed on the two-dimensional graph displayed on the selected plane by its brightness and color. Item 3. A color inspection pass / fail determination apparatus according to Item 1.   The display setting unit based on the two-dimensional graph has a predetermined number of XYZ values acquired in the past by the colorimetric sensor or a predetermined number of XYZ values acquired simultaneously by the colorimetric sensor on the selected plane. 3. The color inspection pass / fail determination apparatus according to claim 2, wherein the color inspection pass / fail determination apparatus is configured to display a plot on a two-dimensional graph.   The display setting unit based on the two-dimensional graph is configured to be able to specify the region range by surrounding a desired range on a two-dimensional graph with a range specification frame. The color inspection pass / fail determination apparatus according to claim 1.   The display setting unit by numerical value is characterized in that an input box is displayed that allows the region range to be specified by numerically inputting a reference value of each value of XYZ to be specified and an allowable range thereof. The color inspection acceptance / rejection determination device according to any one of claims 1 to 4. An area range designation step for designating an area range of XYZ values as a criterion for pass / fail judgment in color inspection of a color inspection object through a predetermined GUI displayed on the screen of the display device;
An area range setting step for setting the area range of the XYZ values specified in the area range specifying step as a criterion for pass / fail judgment;
A colorimetric value acquisition step of irradiating the color inspection object with light and acquiring an XYZ value of light reflected from the color inspection object;
It is determined whether or not the colorimetric value of the light reflected from the color inspection object acquired in the colorimetric value acquisition step is within the region range of the XYZ value set in the region range setting step. A color inspection pass / fail determination step;
Including
The area range specifying step is to specify an area range through a GUI including an area range display setting unit and a pass / fail determination display unit, and the area range display setting unit is configured to perform display setting by a two-dimensional graph. And a display setting unit by numerical value, and the pass / fail judgment is performed by an operation through either the display setting unit by the two-dimensional graph or the display setting unit by numerical value. When the region range of the XYZ value as a reference is specified and the region range is specified, the data indicating the region range of the XYZ value is transmitted through the operated one display setting unit and the other display setting unit. The colors are displayed in real time, and the color inspection pass / fail determination step displays the pass / fail determination result through the pass / fail determination display unit.査合 determination method.   In the region range designation step, in the display setting unit based on the two-dimensional graph, one plane used for display setting is selected from three planes of an XY plane, a YZ plane, and a ZX plane. Display a graph and display the visible color gamut boundary when a dimension that is not displayed on the selected plane is set as the coordinates of the reference point using a predetermined color on the two-dimensional graph displayed on the selected plane And displaying each coordinate point on the two-dimensional graph displayed on the selected plane by its brightness and color when the dimension that is not displayed on the selected plane is set as the coordinate of the reference point. The color inspection pass / fail judgment method according to claim 6, wherein:   The region range specifying step includes a predetermined number of XYZ values acquired in the past by the colorimetric value acquisition step or a predetermined value acquired simultaneously by the colorimetric value acquisition step in the display setting unit based on the two-dimensional graph. The color inspection pass / fail determination method according to claim 7, wherein XYZ values for several minutes are plotted and displayed on a two-dimensional graph on the selected plane.   7. The area range designation step designates the area range by surrounding a desired range with a range designation frame on a two-dimensional graph displayed on a display setting unit based on the two-dimensional graph. Color inspection pass / fail judgment method according to any one of ˜8.   The numerical display setting unit displays a reference value for each of the XYZ values to be specified and an input box that allows numerical input of the area range. The area range specifying step is performed through the input box. 10. The color inspection pass / fail determination method according to claim 6, wherein a region range of XYZ values used as a reference for the pass / fail determination is specified by an operation.