CN115909924A - Online point inspection testing method and device for color analyzer - Google Patents

Abstract

The invention discloses a color analyzer online point inspection test method and a device thereof, wherein the device comprises a movable display device, a standard instrument, a color analyzer, a production host and an SFIS production management and control system; the movable display device provides a standard full white picture; the standard instrument detects the color temperature brightness value of a full white picture displayed by the movable display equipment as a standard value, binds the standard value with the corresponding movable display equipment and then records the standard value in the SFIS production management and control system; an online point inspection program configured on the production host is connected with the SFIS production management and control system through a network, and the online point inspection program acquires a standard value of color temperature brightness corresponding to the movable display equipment and compares the standard value with a test value of the color analyzer to determine whether the difference value is within an allowable error range so as to judge whether the color analyzer is normal; and binding the point inspection result with the color analyzer by the online point inspection program and then uploading the point inspection result to the SFIS production management and control system. The invention can check and test the color analyzer on line at any time, and the color analyzer does not need to be disassembled and transported, thus being simple and convenient.

Description

Online point inspection testing method and device for color analyzer

Technical Field

The invention relates to the field of detection instruments and equipment, in particular to an online point inspection testing method and device for a color analyzer.

Background

In the prior art, the color analyzer is disassembled once a year and then sent to an instrument checking room for testing and checking by using a standard display. Due to the fact that the color analyzer is inconvenient to disassemble and assemble, the existing color analyzer is low in point inspection and verification testing frequency, the color analyzer which is out of alignment cannot be found in time, and the color analyzer is poor in potential danger in production and use. If the frequency is increased, the production is affected or more spare color analyzers are needed, resulting in wasted production capacity or cost. The instrument checking room checking and the production adjustment testing program are independent, and the production adjustment testing program cannot judge whether the used color analyzer is out of alignment or not, so that adverse hidden dangers exist.

Disclosure of Invention

The invention aims to provide an online point inspection testing method and device for a color analyzer.

The technical scheme adopted by the invention is as follows:

an online point inspection test method for a color analyzer, wherein the color analyzer is connected with a production host, and the production host is connected with an SFIS production management and control system, and the method comprises the following steps:

step 1, testing a color temperature brightness value of a standard full white picture displayed on movable display equipment by using a standard instrument in an instrument checking room to be used as a standard value;

step 2, binding the standard value with the serial number of the corresponding movable display equipment and then recording the standard value in an SFIS production management and control system;

step 3, placing the movable display equipment in front of a color analyzer needing point inspection, displaying a standard full white picture, and testing a color temperature brightness value as a test value by the color analyzer;

step 4, starting an online point inspection program configured on the production host, and acquiring a standard value corresponding to the movable display equipment from the SFIS production management and control system;

step 5, the online point inspection program judges whether the difference value between the current test value and the standard value is within the set allowable error range; if so, judging that the spot inspection of the color analyzer is passed; otherwise, judging that the spot inspection of the color analyzer fails;

and 6, binding the point inspection result and the corresponding color analyzer by the online point inspection program, and then recording the point inspection result and the corresponding color analyzer in the SFIS production management and control system.

Further, the movable display device is a tablet computer.

Further, the standard value determined in step 2 is bound with the serial number of the movable display device.

Further, the spot test result is bound to the serial number of the color analyzer in step 6.

Further, it also includes the following steps: the production adjustment test program integrated with the online spot inspection program on the production host machine is connected with the SFIS production management and control system; when the production adjustment test program runs, the serial number of the currently used color analyzer and the latest check result are read, and when the check result is failure, the check failure is prompted and the production adjustment test program is stopped.

A color analyzer online point inspection testing device comprises a movable display device, a standard instrument, a color analyzer, a production host and an SFIS production management and control system; the production host is respectively connected with the color analyzer and the SFIS production management and control system, and the standard instrument is connected with the SFIS production management and control system; the movable display equipment provides a standard full white picture for a color analyzer and a standard instrument to test the brightness value of the color temperature; the standard instrument detects the color temperature brightness value of a full white picture displayed by the movable display equipment as a standard value, binds the standard value with the corresponding movable display equipment and then records the standard value in the SFIS production management and control system; the production host is configured with an online point inspection program, the production host is connected with the SFIS production management and control system through a network, and the online point inspection program acquires a standard value of color temperature brightness corresponding to the movable display equipment and compares the standard value with a test value of the color analyzer to determine whether the difference value is within an allowable error range so as to determine whether the color analyzer is normal; and binding the point inspection result with the color analyzer by the online point inspection program and then uploading the point inspection result to the SFIS production management and control system.

Further, the movable display device is a tablet computer.

Further, the measured standard value is bound to a serial number of the removable display device.

Further, the spot inspection result is bound with the serial number of the color analyzer.

Furthermore, a production adjustment test program is installed on the production host, the online point inspection program is integrated on the production adjustment test program, the production adjustment test program is connected with the SFIS production management and control system, when the production adjustment test program runs, the serial number of the currently used color analyzer and the latest point inspection result are read firstly, and when the point inspection result is failure, the point inspection failure is prompted and the production adjustment test program is stopped.

By adopting the technical scheme, the color temperature brightness value of the white picture of the movable display equipment is tested by using a standard instrument in an instrument calibration room, is bound with the serial number of the movable display equipment and is recorded in an SFIS system to be set as a standard value; when the spot inspection is tested, the movable display equipment opens a white picture and is placed in front of the color analyzer, the serial number of the movable display equipment is input into the spot inspection program, and the spot inspection program reads the current test value of the color analyzer and compares the current test value with the standard value for judgment; when the decision that the difference is within the set error range is OK, "PASS" is displayed; when the difference is not within the set error range, FAIL is judged, and FAIL is displayed. The technical scheme of the invention can be used for on-line spot inspection and test of the color analyzer at any time, and the color analyzer does not need to be disassembled and transported, and is simple and convenient. The test recording system is connected with the production adjustment test system, and the production adjustment test system can automatically judge whether the currently used color analyzer is out of alignment, so that poor adjustment test caused by the use of the out-of-alignment color analyzer is avoided.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and the detailed description;

FIG. 1 is a schematic flow chart of an on-line spot inspection testing method for a color analyzer according to the present invention;

fig. 2 is a schematic structural diagram of an on-line spot inspection testing device of a color analyzer according to the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

As shown in fig. 1 or 2, the invention discloses an online point inspection testing method for a color analyzer, wherein the color analyzer is connected with a production host, the production host is connected with an SFIS production management and control system, and the method comprises the following steps:

step 1, testing a color temperature brightness value of a standard full white picture displayed on a movable display device by using a standard instrument in an instrument calibration room to be used as a standard value;

step 2, binding the standard value with the serial number of the corresponding movable display equipment and then recording the standard value in an SFIS production management and control system;

step 3, placing the movable display equipment in front of a color analyzer needing point inspection, displaying a standard full white picture, and testing a color temperature brightness value as a test value by the color analyzer;

step 4, starting an online point inspection program configured on the production host, and acquiring a standard value corresponding to the movable display equipment from the SFIS production management and control system;

step 5, the online point inspection program judges whether the difference value between the current test value and the standard value is within the set allowable error range; if so, judging that the spot inspection of the color analyzer is passed; otherwise, judging that the spot inspection of the color analyzer fails;

and 6, binding the point inspection result and the corresponding color analyzer by the online point inspection program, and then recording the point inspection result and the corresponding color analyzer in the SFIS production management and control system.

Further, the movable display device is a tablet computer.

Further, the standard value determined in step 2 is bound with the serial number of the movable display device.

Further, the point detection result in step 6 is bound with the serial number of the color analyzer.

Further, it also includes the following steps: the production adjustment test program integrated with the online spot inspection program on the production host machine is connected with the SFIS production management and control system; when the production adjustment test program runs, the serial number of the currently used color analyzer and the latest check result are read, and when the check result is failure, the check failure is prompted and the production adjustment test program is stopped.

A color analyzer online point inspection testing device comprises a movable display device, a standard instrument, a color analyzer, a production host and an SFIS production management and control system; the production host is respectively connected with the color analyzer and the SFIS production management and control system, and the standard instrument is connected with the SFIS production management and control system; the movable display equipment provides a standard full white picture for a color analyzer and a standard instrument to test the brightness value of the color temperature; the standard instrument detects a color temperature brightness value of a full white picture displayed by the movable display equipment as a standard value, binds the standard value with the corresponding movable display equipment and then records the standard value in the SFIS production management and control system; the production host is configured with an online point inspection program, the production host is connected with the SFIS production management and control system through a network, and the online point inspection program acquires a standard value of color temperature brightness corresponding to the movable display equipment and compares the standard value with a test value of the color analyzer to determine whether the difference value is within an allowable error range so as to determine whether the color analyzer is normal; and binding the point inspection result with the color analyzer by the online point inspection program and then uploading the point inspection result to the SFIS production management and control system.

Further, the movable display device is a tablet computer.

Further, the measured standard value is bound to a serial number of the removable display device.

Further, the spot inspection result is bound with the serial number of the color analyzer.

Furthermore, a production adjustment test program is installed on the production host, the online point inspection program is integrated on the production adjustment test program, the production adjustment test program is connected with the SFIS production management and control system, when the production adjustment test program runs, the serial number of the currently used color analyzer and the latest point inspection result are read firstly, and when the point inspection result is failure, the point inspection failure is prompted and the production adjustment test program is stopped.

By adopting the technical scheme, the color temperature brightness value of the white picture of the movable display equipment is tested by using a standard instrument in an instrument calibration room, is bound with the serial number of the movable display equipment and is recorded in an SFIS system to be set as a standard value; when the spot inspection is tested, the movable display equipment opens a white picture and is placed in front of the color analyzer, the serial number of the movable display equipment is input into the spot inspection program, and the spot inspection program reads the current test value of the color analyzer and compares the current test value with the standard value for judgment; when the decision that the difference is within the set error range is OK, "PASS" is displayed; when the difference is not within the set error range, FAIL is judged, and FAIL is displayed. The technical scheme of the invention can be used for on-line point inspection and test of the color analyzer at any time, the color analyzer does not need to be disassembled and transported, and the color analyzer is simple and convenient. The test recording system is connected with the production adjustment test system, and the production adjustment test system can automatically judge whether the currently used color analyzer is out of alignment, so that poor adjustment test caused by the use of the out-of-alignment color analyzer is avoided.

It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. The embodiments and features of the embodiments in the present application may be combined with each other without conflict. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations. Thus, the detailed description of the embodiments of the present application is not intended to limit the scope of the claimed application, but is merely representative of selected embodiments of the application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Claims (10)

1. The color analyzer online point inspection test method is characterized in that the color analyzer is connected with a production host, and the production host is connected with an SFIS production management and control system, and the SFIS production management and control system comprises the following steps: the method comprises the following steps:

step 1, testing a color temperature brightness value of a standard full white picture displayed on a movable display device by using a standard instrument in an instrument calibration room to be used as a standard value;

step 2, binding the standard value with the serial number of the corresponding movable display equipment and then recording the standard value in an SFIS production management and control system;

step 3, placing the movable display equipment in front of a color analyzer needing point inspection, displaying a standard full white picture, and testing a color temperature brightness value as a test value by the color analyzer;

step 4, starting an online point inspection program configured on the production host, and acquiring a standard value corresponding to the movable display equipment from the SFIS production management and control system;

step 5, the online point inspection program judges whether the difference value between the current test value and the standard value is within the set allowable error range; if so, judging that the spot inspection of the color analyzer is passed; otherwise, judging that the spot inspection of the color analyzer fails;

and 6, binding the point inspection result and the corresponding color analyzer by the online point inspection program, and then recording the point inspection result and the corresponding color analyzer in the SFIS production management and control system.

2. The on-line spot inspection testing method of the color analyzer as claimed in claim 1, wherein: the movable display device is a tablet computer.

3. The on-line point inspection testing method of the color analyzer as claimed in claim 1, wherein: and (3) binding the standard value determined in the step (2) with the serial number of the movable display equipment.

4. The on-line spot inspection testing method of the color analyzer as claimed in claim 1, wherein: and 6, binding the point detection result with the serial number of the color analyzer.

5. The on-line point inspection testing method of the color analyzer as claimed in claim 1, wherein: it also includes the following steps: the production adjustment test program integrated with the online spot inspection program on the production host is connected with the SFIS production management and control system; when the production adjustment test program runs, the serial number of the currently used color analyzer and the latest point inspection result are read, and when the point inspection result is failure, the point inspection failure is prompted and the production adjustment test program is stopped.

6. An on-line spot inspection testing device for a color analyzer, the on-line spot inspection testing method for a color analyzer according to any one of claims 1 to 5, characterized in that: the device comprises a movable display device, a standard instrument, a color analyzer, a production host and an SFIS production management and control system; the production host is respectively connected with the color analyzer and the SFIS production management and control system, and the standard instrument is connected with the SFIS production management and control system; the movable display equipment provides a standard full white picture for a color analyzer and a standard instrument to test the brightness value of the color temperature; the standard instrument detects the color temperature brightness value of a full white picture displayed by the movable display equipment as a standard value, binds the standard value with the corresponding movable display equipment and then records the standard value in the SFIS production management and control system; the production host is configured with an online point inspection program, the production host is connected with the SFIS production management and control system through a network, and the online point inspection program acquires a standard value of color temperature brightness corresponding to the movable display equipment and compares the standard value with a test value of the color analyzer to determine whether the difference value is within an allowable error range so as to determine whether the color analyzer is normal; and binding the point inspection result with the color analyzer by the online point inspection program and then uploading the point inspection result to the SFIS production management and control system.

7. The on-line spot inspection testing device of the color analyzer as claimed in claim 6, wherein: the movable display device is a tablet computer.

8. The on-line spot inspection testing device of the color analyzer as claimed in claim 6, wherein: the measured standard value is bound to the serial number of the removable display device.

9. The on-line spot inspection testing device of the color analyzer as claimed in claim 6, wherein: and binding the point inspection result with the serial number of the color analyzer.

10. The on-line spot inspection testing device of the color analyzer as claimed in claim 6, wherein: the production adjustment test program is connected with the SFIS production management and control system, when the production adjustment test program runs, the serial number of the currently used color analyzer and the latest point inspection result are read first, and when the point inspection result is failure, the point inspection failure is prompted and the production adjustment test program is stopped.

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