JP2012053579A - Production management system and production management method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a production management system and a production management method for improving productivity in a production line of a product.SOLUTION: A production management system is provided, in which a control section 21 of an image quality adjustment device 20 records an individual identifier in a ROM of a liquid crystal panel 10 to be adjusted, executes measurement processing, and generation processing of correction data, and then executes registration processing of the correction data associated with the individual identifier to a correction information management server 40, and a control section 31 of a writing device 30 executes reading processing of the individual identifier, and when the individual identifier is recorded in the ROM and an unprocessed correction data is registered, executes acquisition processing of the correction data from the correction information management server 40, and executes writing processing of the correction data to the ROM of the liquid crystal panel 10 to be adjusted.

Description

  The present invention relates to a production management system and a production management method for improving productivity in a product production line.

  Today, a production line for a display such as a liquid crystal panel is constructed so as to realize uniform quality. However, even in such a production line, manufacturing variations occur in individual displays. Therefore, a technique for adjusting each display so that a better image can be output has been studied (for example, see Patent Document 1). In the technique described in Patent Document 1, the control unit of the image quality adjustment device generates a test pattern, supplies the test pattern to the liquid crystal panel, and acquires an output image from the photographing camera. Then, bandpass filtering is performed on the output image data to calculate a correction value. When the calculation of the image correction table is completed for all the reference gradations, it is written in the ROM of the correction circuit. For an image signal for displaying an image on the liquid crystal panel, a linearly interpolated correction value is calculated with reference to an image correction table recorded in the ROM.

JP 2010-57149 A (first page, FIG. 1)

  For example, the correction data generation method described in Patent Document 1 requires processes of display data measurement, correction data generation, and correction data writing. In this case, the time required for each process is different. Therefore, when a series of processes are executed at the same time, resources necessary to execute each process are occupied even when other processes are executed. For this reason, resources cannot be used effectively, and it is difficult to improve productivity.

  The present invention has been made to solve the above-described problems, and an object thereof is to provide a production management system and a production management method for improving productivity in a product production line.

  In order to solve the above problems, the invention described in claim 1 includes a correction information creating unit that creates correction information about an adjustment target product, and a correction information writing unit that writes the correction information to the adjustment target product. And a correction information management means for storing correction information associated with the individual identifier, wherein the correction information creating means specifies the individual identifier for the product to be adjusted, and the adjustment Means for acquiring characteristic information of the target product, and means for recording correction information corresponding to the characteristic information in a correction information management means in association with an individual identifier of the adjustment target product, wherein the correction information writing means The correction information associated with the individual identifier is acquired from the means for specifying the individual identifier for the adjustment target product and the correction information management means, and the adjustment target And summarized in that and means for writing the goods of the memory.

According to a second aspect of the present invention, in the production management system according to the first aspect, the correction information creating unit assigns an individual identifier to the adjustment target product and writes it in a memory of the adjustment target product. The gist is to identify an individual identifier for the product to be adjusted, and to identify the individual identifier for the product to be adjusted by acquiring the individual identifier from the memory of the product to be adjusted. .

  According to a third aspect of the present invention, in the production management system according to the second aspect, an alarm is output when the correction information writing means detects a product to be adjusted whose unique identifier is not recorded in the memory. The gist is to do.

  According to a fourth aspect of the present invention, in the production management system according to any one of the first to third aspects, the correction information management unit further stores written information of correction information for the individual identifier. When the correction information writing means writes the correction information to the adjustment target product, the written information is recorded in the correction information management means for the individual identifier of the adjustment target product, and a new adjustment is made. The gist is to output an alarm when an individual identifier to which written information is added is acquired from the memory of the target product by the correction information management means.

  According to a fifth aspect of the present invention, in the production management system according to the fourth aspect, the correction information management unit further stores a correction information registration time, and the correction information management unit stores the correction information writing result. The gist is to calculate an elapsed time from the registration time for an individual identifier that is not registered, and to output an alarm when an individual identifier whose elapsed time exceeds a reference time is extracted.

  The invention according to claim 6 is a correction information management unit that stores correction information associated with an individual identifier, a correction information generation unit that generates correction information about an adjustment target product, and the correction information A method of performing production management using a production management system comprising correction information writing means for writing to the correction information creating means, wherein the correction information creating means specifies an individual identifier for the adjustment target product, and the adjustment Executing the step of obtaining the characteristic information of the target product and the step of recording the correction information corresponding to the characteristic information in the correction information management means in association with the individual identifier of the adjustment target product; Acquiring correction information associated with the individual identifier from the means for specifying an individual identifier for the adjustment target product and the correction information management means, and And summarized in that executing the means for writing in the memory of elephant products.

(Function)
According to the invention described in claim 1 or 6, the correction information creating means specifies the individual identifier for the adjustment target product, acquires the characteristic information of the adjustment target product, and adjusts the correction information corresponding to the characteristic information. It records in the correction information management means in association with the individual identifier of the target product. Further, the correction information writing means identifies the individual identifier for the adjustment target product, acquires correction information associated with the individual identifier from the correction information management means, and writes it in the memory of the adjustment target product. Thus, the correction information creation process and the correction information writing process can be performed separately. Therefore, even when each processing time is different, productivity can be improved by adjusting the time. Moreover, since two processes can be processed in parallel at different places, the degree of freedom in designing the production line can be increased.

  According to the second aspect of the present invention, the correction information creating means assigns the individual identifier to the adjustment target product and writes it to the memory of the adjustment target product. Further, the correction information writing means acquires the individual identifier from the memory of the product to be adjusted. Thereby, the individual identifier of each adjustment object product can be specified using the memory of the adjustment object product.

According to the third aspect of the present invention, when the correction information writing means detects an adjustment target product whose unique identifier is not recorded in the memory, it outputs an alarm. Thereby, the acquisition failure of the characteristic information of the product to be adjusted can be suppressed.

  According to the invention described in claim 4, when the correction information writing means writes the correction information in the adjustment target product, the written information is corrected information management means for the individual identifier of the adjustment target product. To record. When the individual identifier to which the written information is assigned is acquired from the memory of the new adjustment target product by the correction information management means, an alarm is output. Thereby, rewriting of correction information can be suppressed.

  According to the invention described in claim 5, the correction information management means calculates the elapsed time from the registration time for the individual identifier for which the correction information writing record is not registered, and the individual identifier whose elapsed time exceeds the reference time If is extracted, an alarm is output. Thereby, omission of writing correction information can be suppressed.

  According to the present invention, it is possible to provide a production management system and a production management method for improving productivity in a product production line.

Explanatory drawing of the production management system of this invention. Explanatory drawing of the process sequence of this invention. Explanatory drawing of the process sequence of this invention. Explanatory drawing of the display process in the liquid crystal panel of this invention.

  The production management system and production management method of the present invention will be described below. In the present embodiment, it is assumed that image quality is improved by suppressing display unevenness (brightness unevenness) of the display panel to be adjusted. In the present embodiment, the liquid crystal panel 10 is used as a product to be adjusted (display panel).

  The liquid crystal panel 10 includes a liquid crystal (liquid crystal unit) sandwiched between transparent electrodes and a backlight that illuminates the liquid crystal from the back. For this reason, the liquid crystal panel 10 outputs an image in which the unevenness of the liquid crystal part and the peripheral light reduction of the backlight are superimposed.

  Therefore, in order to improve the image quality of the liquid crystal panel 10, the liquid crystal panel 10 includes a correction circuit 50 for adjusting the supplied image signal as shown in FIG. Specifically, an image signal (RGB signal) for displaying an image on the liquid crystal panel 10 is supplied to the correction circuit 50 together with the liquid crystal panel 10.

The correction circuit 50 includes a nonvolatile memory (ROM 51) for recording an image correction table.
The ROM 51 stores data (image correction table) relating to correction values for adjusting the signal value of the input image signal. In the present embodiment, a planar distribution of correction values is recorded for each reference gradation.

As shown in FIG. 4, the correction circuit 50 includes a selection / interpolation unit 52 and an addition unit 53 in addition to the ROM 51.
The selection / interpolation means 52 refers to the image correction table recorded in the ROM 51 for each RGB signal. Here, the selection / interpolation means 52 is a correction determined by four block grid points surrounding the pixel position (xy coordinate) of the image signal in the image correction table of two reference gradations adjacent to each RGB signal value of the image signal. A value (2 × 4 = 8) is acquired. And select
The interpolation unit 52 performs linear interpolation on the acquired correction value according to the distance between the signal value of the image signal and each grid point.

  Then, the adding unit 53 adds the correction value acquired from the selecting / interpolating unit 52 to the input image signal. The liquid crystal panel 10 acquires the corrected image signal and displays an image.

  As shown in FIG. 1, the production management system for calculating the correction value includes an image quality adjustment device 20 as correction information creation means, a writing device 30 as correction information writing means, and correction as correction information management means. The information management server 40 is used. In the present embodiment, the image quality adjustment device 20 is installed in the measurement area A1, and the writing device 30 is installed in the writing area A2.

A photographing camera 22, a test pattern generator 23, and a ROM writer 24 are connected to the image quality adjustment device 20.
Here, the imaging camera 22 as an imaging unit captures an image displayed on the liquid crystal panel 10 and supplies output image data to the image quality adjustment apparatus 20. In this embodiment, a monochrome camera having a CCD element that can resolve an area smaller than the pixel size of the display panel is used as the photographing camera 22. Then, the image displayed on the liquid crystal panel 10 is taken.

The test pattern generation device 23 as a signal generation means supplies a test pattern signal to the liquid crystal panel 10 based on an instruction from the image quality adjustment device 20. In the present embodiment, 8-bit RGB signals are supplied to the entire surface of the liquid crystal panel 10.
The ROM writer 24 writes the individual identifier acquired from the image quality adjustment device 20 in the ROM 51.

  The image quality adjustment device 20 is a computer terminal that executes processing for calculating a correction value for adjusting the image quality of the liquid crystal panel 10. The image quality adjustment device 20 includes a control unit 21.

  The control unit 21 has a CPU, RAM, ROM, and the like as control means, and will be described later (steps for specifying individual identifiers, steps for obtaining characteristic information, steps for generating correction information, registration of correction information, etc. (Including processing). By executing the correction data creation program for this purpose, the control unit 21 functions as an individual identifier specifying unit, a characteristic information acquisition unit, a correction information generation unit, and a correction information registration unit.

The individual identifier specifying unit executes a process of specifying an individual identifier for the adjustment target product. Specifically, an individual identifier is assigned and written in the ROM 51 of the liquid crystal panel 10.
The characteristic information acquisition unit executes processing for acquiring characteristic information of the adjustment target product. Specifically, a signal input to the liquid crystal panel 10 is controlled, and output image data displayed on the liquid crystal panel 10 is acquired.

  The correction information generation means executes a process of generating correction information corresponding to the characteristic information of the adjustment target product. Specifically, the correction value is calculated based on the output image data displayed on the liquid crystal panel 10.

  The correction information registration unit executes a process of recording in the correction information management unit in association with the individual identifier of the product to be adjusted. Specifically, an image correction table configured by the calculated correction value is transmitted to the correction information management server 40.

On the other hand, a ROM writer 34 is connected to the writing device 30. The ROM writer 34 reads an individual identifier from the ROM 51 of the liquid crystal panel 10 to be adjusted and writes an image correction table in the ROM 51.

  The writing device 30 is a computer terminal that executes processing for writing a correction value for adjusting the image quality of the liquid crystal panel 10. The writing device 30 includes a control unit 31 and a display. This display functions as an alarm output means for alerting the administrator about problems in the process.

  The control unit 31 includes a CPU, a RAM, a ROM, and the like as control means, and performs later-described processing (processing including a step of specifying an individual identifier, a step of acquiring correction information, a step of writing correction information in a memory, and the like). Do. By executing the writing process program for this purpose, the control unit 21 functions as an individual identifier specifying unit, a correction information acquiring unit, and a correction information writing unit as shown in FIG.

The individual identifier specifying means executes a process of specifying an individual identifier for the product to be arranged. Specifically, the individual identifier written in the ROM 51 of the liquid crystal panel 10 is acquired.
The correction information acquisition unit executes processing for acquiring correction information associated with the individual identifier from the correction information management unit. Specifically, an image correction table is acquired from the correction information management server 40.

  The correction information writing unit executes a process of writing the correction information in the memory of the product to be adjusted. Specifically, the image correction table acquired from the correction information management server 40 is written in the ROM 51 of the liquid crystal panel 10.

  The ROM writer 24 reads the individual identifier written in the ROM 51 of the liquid crystal panel 10 and writes correction data output from the image quality adjustment device 20 in the ROM 51.

  The correction information management server 40 is a computer system that manages correction values for adjusting the image quality of the liquid crystal panel 10. The correction information management server 40 includes a correction information storage unit 42. The correction information management server 40 holds data related to a reference time for managing correction data stored in the correction information storage unit 42 in a correction data management process described later.

  The correction information storage unit 42 stores correction data (correction information) for correcting the image of each liquid crystal panel 10. This correction data is registered when an image correction table is acquired from the image quality adjustment apparatus 20. This correction data includes data relating to an individual identifier, an image correction table, registration time, and status.

In the individual identifier data area, data relating to an identifier for specifying each liquid crystal panel 10 is recorded.
An image correction table to be written in the ROM 51 of the liquid crystal panel 10 is recorded in the image correction table data area. Here, an image correction table for suppressing display unevenness for each predetermined gradation is stored.

In the registration time data area, data relating to the time when the image correction table of the liquid crystal panel 10 is registered is recorded.
In the status data area, data relating to a flag for specifying the adjustment status of each liquid crystal panel 10 is recorded. When this image correction table is written in the ROM 51 of the liquid crystal panel 10 to be adjusted, an end flag is recorded.

  A process of performing production management of the liquid crystal panel 10 using the above system will be described. Here, with reference to FIGS. 2 and 3, correction data generation processing, correction data writing processing, and correction data management processing will be described in this order.

(Correction data generation process)
First, correction data generation processing will be described with reference to FIG. The correction data generation process is performed using the image quality adjustment device 20 installed in the measurement area A1.

  Here, first, the control unit 21 of the image quality adjustment apparatus 20 executes the individual identifier recording process (step S1-1). Specifically, the individual identifier specifying unit of the control unit 21 determines an individual identifier for specifying the liquid crystal panel 10 to be adjusted. The individual identifier specifying means supplies the generated individual identifier to the ROM writer 24. In this case, the ROM writer 24 writes the individual identifier in the ROM 51 of the liquid crystal panel 10 to be adjusted.

  Next, the control unit 21 of the image quality adjustment apparatus 20 performs a measurement process (step S1-2). Specifically, the characteristic information acquisition unit of the control unit 21 instructs the test pattern generation device 23 to output an RGB signal for outputting an image of the gradation to be adjusted. Here, in the gradation to be adjusted, signals having the same R signal value, G signal value, and B signal value (common signal values) are used for the entire surface of the liquid crystal panel 10. In response to this instruction, the test pattern generator 23 supplies an 8-bit RGB signal, which is the gradation to be adjusted, to the liquid crystal panel 10.

  In response to this, the liquid crystal panel 10 outputs a gray image of the adjustment target gradation. In this case, when the liquid crystal has uneven cell gaps or uneven backlights, the liquid crystal panel 10 has display unevenness in which these unevennesses are superimposed. Here, the imaging camera 22 captures an image on which display unevenness is superimposed.

  And the control part 21 of the image quality adjustment apparatus 20 performs the acquisition process of an output image. Specifically, the characteristic information acquisition unit of the control unit 21 captures output image data obtained by photographing the liquid crystal panel 10 from the photographing camera 22. Then, the characteristic information acquisition unit converts the output image data into a luminance distribution for each block composed of 8 × 8 pixels, and supplies it to the filter unit.

  Next, the control unit 21 of the image quality adjustment apparatus 20 executes a filtering process. Specifically, the characteristic information acquisition unit of the control unit 21 calculates bandpass data by performing bandpass filtering on the acquired output image data. This band pass data is composed of a distribution excluding low frequency components and high frequency components according to the in-plane luminance distribution of the liquid crystal panel 10.

  Next, the control unit 21 of the image quality adjustment apparatus 20 executes correction data generation processing (step S1-3). Specifically, the correction information generation unit of the control unit 21 generates an image correction table obtained by inverting bandpass data. Specifically, the distribution of correction values on the liquid crystal panel 10 is calculated for each preset gradation (reference gradation). In the present embodiment, a predetermined number (for example, 10 levels) of reference gradations are used in a signal value expressed in 8 bits. Then, the adjustment target gradation corresponding to the reference gradation is sequentially changed for each step, and an image correction table is generated for each adjustment target gradation. Further, the correction information generating means temporarily stores an image correction table in the memory in association with an identifier for specifying the adjusted reference gradation.

Next, the control unit 21 of the image quality adjustment apparatus 20 executes a correction data registration process in association with the individual identifier (step S1-4). Specifically, when the correction information registration unit of the control unit 21 finishes calculating correction data for all reference gradations, the correction information management server 40 displays the generated image correction table together with the individual identifier of the liquid crystal panel 10. Forward to. In this case, the correction information management server 40 records an image correction table in the correction information storage unit 42 in association with the individual identifier. Furthermore, the correction information management server 40 records the current time acquired from the system timer as the registration time.
The liquid crystal panel 10 that has completed the correction data generation process is delivered from the measurement area A1 to the writing area A2 at a predetermined timing.

(Correction data writing process)
This process is performed using the writing device 30 installed in the writing area A2. The liquid crystal panel 10 delivered from the measurement area A1 to the writing area A2 is connected to the ROM writer 34.

  In this case, the control unit 31 of the writing device 30 executes an individual identifier reading process (step S2-1). Specifically, when the connection of the liquid crystal panel 10 is detected, the individual identifier specifying unit of the control unit 31 searches for the individual identifier stored in the ROM 51 of the liquid crystal panel 10.

  Next, the control unit 31 of the writing device 30 performs a determination process as to whether the measurement has been completed (step S2-2). Specifically, when the individual identifier specifying unit of the control unit 31 can acquire the individual identifier from the ROM 51, it is determined that the measurement has been completed. If no individual identifier is recorded in the ROM 51, it is determined that no measurement has been performed.

  When the individual identifier is not recorded in the ROM 51 and it is determined that measurement has not been performed (in the case of “NO” in step S2-2), the control unit 31 of the writing device 30 executes an alarm process (step S2-3). ). Specifically, the individual identifier specifying means of the control unit 31 outputs an alarm on the display. This alarm includes a message indicating that the unmeasured liquid crystal panel 10 is mixed in the writing area A2.

  On the other hand, when the individual identifier is recorded in the ROM 51 and it is determined that the measurement has been completed (in the case of “YES” in step S2-2), the control unit 31 of the writing device 30 executes a correction data search process ( Step S2-4). Specifically, the correction information acquisition unit of the control unit 31 searches for the individual identifier acquired from the ROM 51 of the liquid crystal panel 10 using the correction information storage unit 42 of the correction information management server 40.

  Next, the control unit 31 of the writing device 30 executes a determination process as to whether there is unprocessed correction data (step S2-5). Specifically, when the correction information writing unit of the control unit 31 cannot extract the individual identifier in the correction information storage unit 42, it is determined that the correction data is not registered. Even when the correction data in which the individual identifier is recorded can be extracted, if the end flag is recorded, it is determined that unprocessed correction data is not registered.

  When unprocessed correction data is not registered (in the case of “NO” in step S2-5), the control unit 31 of the writing device 30 executes an alarm process (step S2-3). Specifically, the correction information writing means of the control unit 31 outputs an alarm on the display. This alarm includes a message indicating that correction data is not registered in the correction information storage unit 42.

  On the other hand, when unprocessed correction data is registered (in the case of “YES” in Step S2-5), the control unit 31 of the writing device 30 executes correction data acquisition processing (Step S2-6). . Specifically, the correction information writing unit of the control unit 31 acquires the image correction table associated with the individual identifier from the correction information storage unit 42 of the correction information management server 40.

  Next, the control unit 31 of the writing device 30 executes a correction data writing process (step S2-7). Specifically, the correction information writing unit of the control unit 31 supplies the image correction table extracted from the correction information storage unit 42 to the ROM writer 34. In this case, the ROM writer 34 writes the image correction table in the ROM 51 of the liquid crystal panel 10. As a result, the distribution of correction values is recorded in the ROM 51 with respect to the block position (xy coordinates) in the plane of the liquid crystal panel 10 for each reference gradation.

  Next, the control unit 31 of the writing device 30 executes an end flag recording process (step S2-8). Specifically, the control unit 31 correction information writing means notifies the correction information management server 40 of the end of writing correction data for the individual identifier. In this case, the correction information management server 40 records an end flag in the correction information storage unit 42 in the status data area associated with the individual identifier.

(Correction data management process)
Next, correction data management processing will be described with reference to FIG. In the present embodiment, the correction information management server 40 executes correction data management processing.

  The correction information management server 40 executes correction data registration time acquisition processing (step S3-1). Specifically, the correction information management server 40 searches the correction information storage unit 42 for correction data for which no end flag is recorded. When such correction data is stored, the correction information management server 40 acquires the registration time.

  Next, the correction information management server 40 executes a determination process as to whether or not a time longer than the reference time has elapsed (step S3-2). Specifically, the correction information management server 40 calculates an elapsed time from the registration time of the extracted correction data. Then, the correction information management server 40 compares the calculated elapsed time with the reference time.

  If there is no correction data for which the time equal to or longer than the reference time has passed (in the case of “NO” in step S3-2), the correction data registration time acquisition process (step S3-1) is continued.

  On the other hand, when correction data for which a time longer than the reference time has elapsed is recorded (in the case of “YES” in step S3-2), an alarm process is executed (step S3-3). Specifically, the correction information management server 40 outputs an alarm on the display. This alarm includes a message indicating that correction data that is not used remains in the correction information storage unit 42.

According to this embodiment, the following effects can be obtained.
(1) In the present embodiment, the image quality adjustment device 20 is installed in the measurement area A1, and the writing device 30 is installed in the writing area A2. Then, the control unit 21 of the image quality adjustment apparatus 20 executes an individual identifier recording process (step S1-1), a measurement process (step S1-2), and a correction data generation process (step S1-3). Then, the control unit 21 of the image quality adjustment apparatus 20 executes a correction data registration process in association with the individual identifier (step S1-4). Further, the control unit 31 of the writing device 30 executes an individual identifier reading process (step S2-1), a correction data acquisition process (step S2-6), and a correction data writing process (step S2-7). . Thereby, measurement and writing can be performed separately. Since the time required for the measurement process, the correction data creation process, and the writing process differs depending on the data scale, it is difficult to improve productivity when performing a series of operations in the same area. Even if the required time is the same, line design may be difficult depending on the size and the like. Therefore, with the above configuration, process differentiation and time management can be performed efficiently.

  (2) In this embodiment, when the individual identifier is not recorded in the ROM 51 and it is determined that measurement has not been performed (in the case of “NO” in step S2-2), the control unit 31 of the writing device 30 performs alarm processing. Is executed (step S2-3). As a result, it is possible to alert the administrator about problems in the process such as the presence of the liquid crystal panel 10 delivered to the writing area A2 without performing measurement processing.

  (3) In this embodiment, when unprocessed correction data is not registered (in the case of “NO” in step S2-5), the control unit 31 of the writing device 30 executes an alarm process (step S2). -3). Thereby, it is possible to call attention when the correction data is deleted due to some kind of failure. Furthermore, it is possible to alert the administrator about problems in the process such as erroneous delivery of the liquid crystal panel 10 in which the correction data has already been written.

  (4) In the present embodiment, the correction information management server 40 executes correction data management processing. Here, when correction data for which a time longer than the reference time has elapsed is recorded (in the case of “YES” in step S3-2), the correction information management server 40 executes an alarm process (step S3). -3). As a result, even if a sufficient time has elapsed, it is possible to alert the administrator about problems in the process such as when correction data has not been written. Therefore, it is possible to suppress the occurrence of a product with adjustment failure.

Moreover, you may change the said embodiment as follows.
In the above embodiment, the control unit 21 of the image quality adjustment apparatus 20 performs the individual identifier recording process (step S1-1). Then, the control unit 31 of the writing device 30 executes an individual identifier reading process (step S2-1). The method of assigning and identifying the individual identifier in each liquid crystal panel 10 is not limited to this. For example, a plate displaying an individual identifier may be pasted on a region outside the measurement target of the liquid crystal panel 10 in advance. In this case, an individual identifier reading device is connected to the image quality adjustment device 20 or the writing device 30. For example, when an imaging device is used as the individual identifier reading device, a solid identifier is specified by character recognition processing (OCR) based on a captured image of a plate. It is also possible to use a plate on which a bar code or a two-dimensional code is printed. In this case, a code reader is used as the individual identifier reading device. In addition, a wireless tag storing the individual identifier can be attached to each liquid crystal panel 10. In this case, the individual identifier can be acquired by the wireless tag reader as the individual identifier reading device.

  In the above embodiment, the control unit 21 of the image quality adjustment apparatus 20 executes correction data generation processing (step S1-3). The correction data generation process can also be performed using another computer system (for example, the correction information management server 40). In this case, since the correction data generation process is also performed separately, the degree of freedom in designing the production line can be increased.

  In the above embodiment, the correction information storage unit 42 is provided in the correction information management server 40. However, the correction information storage unit 42 may be provided in the image quality adjustment device 20 or the writing device 30.

  In the above-described embodiment, the image quality adjustment device 20 and the writing device 30 are described one by one. However, a plurality of image quality adjustment devices 20 and the writing devices 30 may be used in combination.

  DESCRIPTION OF SYMBOLS 10 ... Liquid crystal panel, 20 ... Image quality adjusting device, 21 ... Control part, 22 ... Shooting camera, 23 ... Test pattern generator, 24 ... ROM writer, 30 ... Writing device, 31 ... Control part, 34 ... ROM writer, 40 ... correction information management server, 42 ... correction information storage unit, 50 ... correction circuit, 51 ... ROM.

Claims (6)

Correction information creating means for creating correction information about the product to be adjusted;
Correction information writing means for writing the correction information in the product to be adjusted;
A production management system comprising correction information management means for storing correction information associated with an individual identifier,
The correction information creating means
Means for identifying an individual identifier for the product to be adjusted;
Means for obtaining characteristic information of the product to be adjusted;
Means for recording correction information corresponding to the characteristic information in a correction information management means in association with the individual identifier of the product to be adjusted;
The correction information writing means
Means for identifying an individual identifier for the product to be adjusted;
A production management system, comprising: means for obtaining correction information associated with the individual identifier from the correction information management means and writing the correction information in a memory of the product to be adjusted. The correction information creating means assigns an individual identifier to the product to be adjusted and writes it to the memory of the product to be adjusted, thereby specifying an individual identifier for the product to be adjusted,
The production management system according to claim 1, wherein the correction information writing unit specifies an individual identifier for the adjustment target product by acquiring the individual identifier from the memory of the adjustment target product.   3. The production management system according to claim 2, wherein when the correction information writing unit detects an adjustment target product whose unique identifier is not recorded in the memory, an alarm is output. The correction information management means further stores written information of correction information for the individual identifier,
The correction information writing means
When the correction information is written in the adjustment target product, the written information for the individual identifier of the adjustment target product is recorded in the correction information management means,
4. An alarm is output when an individual identifier to which written information has been added is acquired from the memory of a new product to be adjusted by the correction information management means. The production management system described in one. The correction information management means further stores a registration time of correction information,
The correction information management means calculates an elapsed time from the registration time for an individual identifier for which correction information writing results are not registered,
The production management system according to claim 4, wherein an alarm is output when an individual identifier whose elapsed time exceeds a reference time is extracted. Correction information management means for storing correction information associated with the individual identifier;
Correction information creating means for creating correction information about the product to be adjusted;
A method for performing production management using a production management system comprising correction information writing means for writing the correction information to a product to be adjusted,
The correction information creating means
Identifying an individual identifier for the product to be adjusted;
Obtaining characteristic information of the product to be adjusted;
Recording correction information corresponding to the characteristic information in a correction information managing means in association with the individual identifier of the product to be adjusted; and
The correction information writing means
Means for identifying an individual identifier for the product to be adjusted;
A production management method, comprising: obtaining correction information associated with the individual identifier from the correction information management means and writing the correction information in a memory of the product to be adjusted.

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