JP2005014553A - Individual information recording system, information recorder, individual information storage control program, and information recorder control program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a system (1) which can reduce the capacity of a nonvolatile memory by storing only attribute information required for a corresponding image forming apparatus, when the attribute information such as setting information on a destination for each of the image forming apparatuses is stored in the nonvolatile memory mounted on the image forming apparatus, and a system (2) which brings about cost reduction in a manufacturing process by adopting a semipermanently usable noncontact memory as a medium for storing information for identifying each of the image formation apparatuses required in the selection of the attribute information. <P>SOLUTION: In this individual information recording system, the information (individual information) for identifying each of the image forming apparatuses is acquired from the noncontact memory (S11), and after the attribute information such as the setting information on the destination, stored in the nonvolatile memory according to the individual information, is selected (S13), the attribute information is stored in the nonvolatile memory (S14). After that, the individual information is erased from the noncontact memory. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an individual information recording system comprising an image forming apparatus, an information recording apparatus for recording information relating to the image forming apparatus, and a transport apparatus for transporting the image forming apparatus or its parts during the manufacturing process. , And an image forming apparatus provided in the individual information recording system, an information recording apparatus, and a control program thereof, in particular, by obtaining setting information regarding the individual image forming apparatus from a non-contact memory attached to the transporting device, The present invention relates to the above-described system in which the apparatus is simplified.
[0002]
[Prior art]
In general, setting information such as a start screen and font data for an image forming apparatus configured as a copying machine, a printer, a facsimile, or a complex machine thereof is incorporated in a control unit of the image forming apparatus as shown in FIG. It is stored in a nonvolatile memory such as a ROM provided on the substrate. In FIG. 1, the data is tabulated for easy understanding, but in actuality, a data structure of an arbitrary arrangement may be taken.
[0003]
In addition, in the manufacturing process of the image forming apparatus, when the manufactured image forming apparatus is a model that requires OEM (original equipment manufacturer: manufacture of products with different destinations such as export countries), The setting information must be appropriate for each destination. That is, it is necessary to store setting information that matches the destination in the above-described nonvolatile memory.
[0004]
In the manufacturing process of an image forming apparatus that requires OEM support, setting information related to a destination such as a country or a company in which the image forming apparatus is used is conventionally stored in the nonvolatile memory described above. After all data was stored using a writer, the setting information matched with the target destination was switched by using a jumper switch or jumper block.
[0005]
In addition to the above-described method, a bar code seal on which model information about the image forming apparatus is recorded is attached to a tray or the like for carrying a substrate having a non-volatile memory, and a bar code reader or the like is used for non-contact bar code. There is a method of selecting information stored in a nonvolatile memory by reading information recorded on a code seal. That is, a bar code seal on which information for identifying the destination of each image forming apparatus is recorded is created and affixed to a tray or the like for carrying a substrate including a target nonvolatile memory. In the manufacturing process of the image forming apparatus, the destination is determined by reading the information recorded on the bar code sticker with a bar code reader or the like. Based on the result, the setting information of all destinations is stored in advance. This is a method in which setting information matching a destination is retrieved from a database on the management device side and stored in the non-volatile memory using a writer.
[0006]
As an apparatus for recording information for identifying an article on such a bar code sticker and managing the article based on the identification information, an apparatus such as that disclosed in Patent Document 1 has been proposed. In Patent Document 1, destination information as individual information unique to each image forming apparatus recorded on a bar code sticker fixed to the image forming apparatus is read by a bar code reader, and the information is used for management. The font and startup screen information (attribute information) necessary for the search is retrieved from the database on the management device side, and the attribute information is stored in an RF tag (a storage medium using a non-contact IC chip and an antenna embedded plate). Writing is performed using a writer, and article management (font management, startup screen management, etc.) is performed using the stored information.
[0007]
[Patent Document 1]
JP 2002-240913 A
[0008]
[Problems to be solved by the invention]
However, after all the setting information regarding all destinations of the image forming apparatus as described above is stored in the non-volatile memory mounted on the image forming apparatus, the information is set again to information that matches the target destination. In this case, since it is necessary to store the setting information regarding the undesired destination in the nonvolatile memory, the memory capacity is unnecessarily increased, and the production cost is increased accordingly. In addition, when using a bar code sticker, a bar code sticker must be prepared for each destination, and inventory management must be performed even for bar code stickers of destinations with low production frequency. Don't be. In addition, since once used bar code stickers cannot be reused, all used bar code stickers are discarded, resulting in a waste of resources.
Further, although the above-described problems describe information regarding destinations of image forming apparatuses that are OEM-compliant, similar problems occur with setting information unique to individual image forming apparatuses other than the destination information. sell.
Accordingly, the present invention has been made in view of the above circumstances, and an object thereof is to provide individual information storage means such as a non-volatile memory mounted on the image forming apparatus in the manufacturing process of the image forming apparatus. , When storing the attribute information necessary for each image forming apparatus (for example, setting information that matches each destination), individual information (for example, destination identification information) for identifying the target image forming apparatus is stored. By reading the individual information from an information recording member such as a non-contact memory stored in advance, the corresponding attribute information is selected based on the individual information, and only the selected attribute information is stored in the nonvolatile memory. It is an object of the present invention to provide a system for storing information in individual information storage means such as the above. As a result, since only necessary attribute information is stored in the individual information storage means, the capacity of the individual information storage means can be reduced.
Furthermore, the information recording member such as the non-contact memory is detachably attached to the transport device that transports the substrate during the manufacturing process of the image forming apparatus, so that the process for processing the substrate is completed. The information recording member can be reused by removing the information recording member from the transporting device and reattaching the information recording member to the transporting device that transports an unprocessed substrate.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the present invention provides an image forming apparatus, an information recording apparatus for recording information relating to the image forming apparatus, and a transport apparatus for transporting the image forming apparatus or its parts during the manufacturing process. An individual information recording system comprising: a general information storage unit provided in the information recording apparatus, in which general information relating to the image forming apparatus is stored in advance; and provided in the image forming apparatus. Individual information storage means for storing individual information on the individual image forming apparatus in the target information and attribute information thereof, and the general information based on the individual information provided in the information recording apparatus and acquired by a predetermined sensor. And an information writing means for acquiring attribute information corresponding to the individual information from the local information storage means and writing it into the individual information storage means. The information writing means of the information recording device acquires the individual information relating to the individual image forming device from the information recording member mounted on the transport device by the predetermined sensor. It is configured as a system.
According to the present invention, since the information recording member can be replaced and used many times, even if the information recording member is a barcode sheet, it is economical without being disposable. In addition, since only the individual information and attribute information relating to the image forming apparatus are written in the individual information storage means, it is not necessary to store unnecessary attribute information that is not used, and the storage capacity of the individual information storage means can be reduced. I can do it. In this case, it is desirable that the predetermined sensor acquires information recorded on the information recording member in a non-contact manner. As a result, sensor aging due to contact does not become a problem, and reading errors due to shock at the time of contact are completely eliminated. Further, there is no problem even if the information recording member attached to the transport device is detachably attached.
[0010]
Furthermore, the individual information recording system preferably includes information recording member writing means for writing information on the individual information written in the individual information storage means to the information recording member.
With such a configuration, data relating to writing of individual information remains in the information recording member, so that the appropriateness and appropriateness of the process can be determined by referring to the write data in the subsequent process.
[0011]
The individual information recording system preferably includes process information writing means for writing information relating to a processing history in each manufacturing process of the image forming apparatus to the information recording member. Here, there is no problem even if the history is information on the end and / or non-end of the process.
In the subsequent process by this process, it is possible to evaluate the suitability of the process for each image forming apparatus or its components.
[0012]
Furthermore, the individual information recording system is based on the information written on the information recording member by the process information writing means and the information written on the information recording member by the information recording member writing means. If a process evaluation unit for evaluating the manufacturing process of the image forming apparatus is provided, a detailed evaluation will be possible.
Here, it is desirable that the above evaluation includes evaluation on suitability / non-suitability of the process.
[0013]
The present invention also relates to individual information comprising an image forming apparatus, an information recording apparatus for recording information relating to the image forming apparatus, and a transport apparatus for transporting the image forming apparatus or its parts during the manufacturing process. A recording system, which is provided in the information recording apparatus and stores general information related to the image forming apparatus in advance, and is provided in the image forming apparatus, and includes individual information in the general information. Individual information storage means for storing individual information on the image forming apparatus and attribute information thereof, and the general information storage means provided in the information recording apparatus and based on the individual information acquired by a predetermined sensor. An information recording apparatus provided in an individual information recording system, comprising: information writing means for acquiring attribute information corresponding to individual information and writing the attribute information in the individual information storage means The information writing means comprises an information recording device characterized in that the individual information relating to the individual image forming apparatus is obtained by the predetermined sensor from an information recording member mounted on the transport device. It can happen. In this case, it is desirable that the predetermined sensor acquires information recorded on the information recording member in a non-contact manner. It should be noted that the information recording member mounted on the transporting device may be mounted detachably.
[0014]
In this case, it is preferable that the information recording apparatus includes an information recording member writing unit that writes information on the individual information written in the individual information storage unit to the information recording member.
[0015]
The information recording apparatus preferably includes process information writing means for writing information relating to a processing history in each manufacturing process of the image forming apparatus to the information recording member. Here, there is no problem even if the history is information on the end and / or non-end of the process.
[0016]
Further, the information recording apparatus is configured to use the image based on the information written on the information recording member by the process information writing means and the information written on the information recording member by the information recording member writing means. It is even better to have process evaluation means for evaluating the manufacturing process of the forming apparatus. Here, there is no problem even if the above-mentioned evaluation is an evaluation related to the suitability / non-suitability of the process.
[0017]
The present invention provides individual information comprising an image forming apparatus, an information recording apparatus for recording information relating to the image forming apparatus, and a transport apparatus for transporting the image forming apparatus or its parts during the manufacturing process. A recording system, which is provided in the information recording apparatus and stores general information related to the image forming apparatus in advance, and is provided in the image forming apparatus, and includes individual information in the general information. Individual information storage means for storing individual information on the image forming apparatus and attribute information thereof, and the general information storage means provided in the information recording apparatus and based on the individual information acquired by a predetermined sensor. A program for controlling an individual information recording system comprising information writing means for acquiring attribute information corresponding to individual information and writing it in the individual information storage means As an individual information storage control program for realizing the function in which the information writing means of the information recording device obtains the individual information regarding the individual image forming device from the information recording member mounted on the transport device by the sensor. Can be caught.
Here, there is no problem even if the information recording member attached to the transporting device is detachably attached.
[0018]
An individual information recording system comprising an image forming apparatus, an information recording apparatus for recording information about the image forming apparatus, and a transport apparatus for transporting the image forming apparatus or its parts during the manufacturing process. A general information storage means provided in the information recording apparatus, in which general information relating to the image forming apparatus is stored in advance, and an individual image forming apparatus provided in the image forming apparatus and included in the general information. The individual information storage means for storing the individual information and the attribute information thereof, and the individual information provided from the general information storage means based on the individual information provided in the information recording device and obtained by a predetermined sensor. Controlling an information recording device provided in an individual information recording system, comprising information writing means for acquiring corresponding attribute information and writing it in the individual information storage means The information writing means is regarded as an information recording device control program for realizing a function of acquiring the individual information relating to the individual image forming device from the information recording member mounted on the transport device by the sensor. You can also.
Here, there is no problem even if the information recording member attached to the transporting device is detachably attached.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings for understanding of the present invention. It should be noted that the following embodiment is an example embodying the present invention, and does not limit the technical scope of the present invention.
FIG. 1 is a chart showing a list of setting information to be written in the nonvolatile memory using a writer, and FIG. 2 is a diagram of manufacturing an image forming apparatus according to an embodiment of the present invention (hereinafter referred to as an embodiment). FIG. 3 is a block diagram of a process history writing process (hereinafter referred to as process 1) to a non-contact memory mounted on a transport tray in the process, and FIG. 3 is an individual information writing process (hereinafter referred to as non-volatile memory) according to the above embodiment. 4 is a block diagram of the final process (hereinafter referred to as process 3) in which the manufacturing process check according to the above embodiment is performed, and FIG. 5 is a flowchart showing the process in the process 1. FIG. 6 is a flowchart showing the process in step 2, and FIG. 7 is a flowchart showing the process in step 3.
Note that the manufacturing process of the image forming apparatus according to the above embodiment, step 1, step 2, and step 3 are connected by a single manufacturing line, and are independent in the order of step 1, step 2, and step 3. Processing is performed by the control unit on the manufacturing process main body side.
In this embodiment, the image forming apparatus is an OEM-compatible model, and each image forming apparatus is an example of attribute information corresponding to individual information related to each image forming apparatus stored in the nonvolatile memory. Attribute information (information about fonts, startup screens, etc.). However, this is merely an embodiment, and regardless of whether or not the image forming apparatus is an OEM-compliant image forming apparatus, in addition to the attribute information regarding the destination, the type and number of stages of the sheet cassette, or the post-processing apparatus The setting information regarding the optional unit or the like may be used.
[0020]
First, the configuration for carrying out step 1 will be described with reference to FIG.
The process 1 is provided near the process line start point and stores information for identifying the type number (history) of the manufacturing process to be performed and the destination, that is, individual information, in the non-contact memory 4. It is a process to make.
[0021]
The step 1 is a step of performing a predetermined process while transporting the substrate 3 provided with a CPU or the like built in the control unit of the image forming apparatus, and the attribute relating to the destination of each image forming apparatus provided on the substrate 3. Non-volatile memory such as ROM for storing information, etc. 5, writing connector 2 which is an interface unit when information is written to the non-volatile memory 5, tray 1 which is a transport device for transporting the substrate 3 For example, an RFID tag (Radio Frequency Identification Tag; a tag with a size of several centimeters excellent in environmental friendliness) that is detachably mounted on the tray 1. Data can be stored and communicated with a reader by radio waves or electromagnetic waves. A non-contact memory 4 that is an information recording member, and a transceiver 6 capable of non-contact communication with the non-contact memory 4 It is.
[0022]
The transceiver 6 can perform processing alone or is connected to a control unit C which is a main component of the information recording apparatus. The transceiver 6 receives processing instructions from the control unit C, or is operated by an operator working in the step 1, so that the attribute information regarding the destination of the board 1 that passes the step 1 is not displayed. It is for transmitting and storing to the contact memory 4.
[0023]
As described above, the non-contact memory 4 stores individual information such as a destination code for identifying the destination in the step 1. Here, the non-contact memory 4 is mounted on the tray 1 by, for example, a double-sided tape, a hook-and-loop fastener or the like in a state of being enclosed in a magnet-like card or the like. Also, during the manufacturing process, for example, the history of process completion or non-completion to the non-contact memory 4 and the writing of check locations during the process, etc. from the control unit C involved in the manufacturing process (or The various information transmitted by the transceiver 6 alone is communicated to the non-contact memory 4 by the transceiver 6 in a non-contact manner.
The non-contact memory 4 is an example of an information recording member in the present invention, the non-volatile memory 5 is an example of individual information storage means in the present invention, and further, a process history and a check location are stored in the non-contact memory. 4 is an example of the process information writing means in the present invention.
[0024]
Next, the configuration for carrying out step 2 will be described with reference to FIG.
The tray 1, writing connector 2, substrate 3, non-contact memory 4, and nonvolatile memory 5 in the figure are the same as those described in the above step 1. Here, the contactless memory 4 stores individual information such as the destination written by the transceiver 6 in the step 1. In addition to the above-described configuration, the step 2 includes a transceiver 10 for non-contact communication with the non-contact memory 4, a writer 7 for writing information to the nonvolatile memory 5, the writer 7 and the above-described configuration. A cable 8 for communication with the transceiver 10 and a cable 9 for communication between the writer 7 and the nonvolatile memory 8 are provided, and the steps described below are executed.
[0025]
That is, in the step 2, the individual information stored in the non-contact memory 4 is acquired by the transceiver 10 in a non-contact manner, and the individual information is transmitted to the writer 7 via the cable 8. In the writer 7 or a memory provided in the control unit C connected to the writer 7, setting information of all patterns regarding all destination information, that is, the individual information and attribute information regarding all image forming apparatuses is stored. Paired information (hereinafter referred to as general information) is stored in advance, and by comparing the general information with the individual information stored in the acquired non-contact memory 4, Destination setting information corresponding to the individual information, that is, attribute information is selected. The selected attribute information is stored in the nonvolatile memory 5 through the cable 9 and the writing connector 2.
The nonvolatile memory 5 as described above is the individual information storage means in the present invention, and the writer 7 is the information writing means in the present invention. Further, the memory (not shown) in which the setting information of all patterns related to all destination information stored in the writer 7 or the control unit C is stored in advance is general information storage means in the present invention.
[0026]
Here, when the step 2 is executed, the destination information of the attribute information stored in the nonvolatile memory 5 is written to the non-contact memory 4 by the transceiver 10. It is good to leave. The information written in the non-contact memory 4 is used for checking the manufacturing process in step 3 to be described later.
The means for executing the process of writing the destination information as described above into the non-contact memory 4 is an example of the information recording member writing means in the present invention.
[0027]
Next, the configuration in which step 3 is performed will be described with reference to FIG.
The tray 1, the writing connector 2, the substrate 3, the non-contact memory 4, and the nonvolatile memory 5 used here are the same as those described in the above step 1 and the above step 2. Here, for the non-contact memory 4, the individual information written by the transceiver 6 and the transceiver 10 in the step 1 and the step 2 and the attribute information stored in the nonvolatile memory 5. Information on which destination is is stored. In addition to the above-described configuration, the step 3 is configured by a transceiver 11 that communicates information stored in the non-contact memory 4 in a non-contact manner.
[0028]
In the step 3, the information stored in the non-contact memory 4 in the step 1 and the step 2 is acquired by the transceiver 11, and the information is collated, so that the manufacturing process is performed correctly. It is confirmed whether or not That is, the individual information stored in the step 1, the history of the process and the check location stored in the step 1, and the nonvolatile memory 5 stored in the step 2 are stored. Information regarding which destination attribute information is attribute information is acquired by the transceiver 11. Each acquired information is transmitted to an apparatus (not shown) for confirming whether or not the manufacturing process controlled by the control unit C is normally performed, and whether or not the manufacturing process is normally performed. Confirmation is made. Here, the confirmation process performed by the apparatus for confirming whether or not the manufacturing process has been normally performed may be performed by the transceiver 11.
Note that the above-described apparatus for confirming whether or not the manufacturing process has been normally performed or the transceiver 11 is a process evaluation unit in the present invention.
[0029]
Specifically, flowcharts are used for the processes of steps 1 to 3 performed by the control unit C (hereinafter referred to as the manufacturing process side control unit C1) of the information recording apparatus on the manufacturing process main body side according to this embodiment. I will explain.
First, the process of the said process 1 is demonstrated using FIG. Further, reference numerals S1, S2,... In FIG. 5 denote step (processing procedure) numbers, respectively.
S1: When the arrival of the tray 1 is detected by a position sensor (not shown), whether or not the non-contact memory 4 is mounted on the tray 1 carrying the substrate 3 is determined by the manufacturing process side control unit. The determination is made using an unillustrated sensor connected to C1. If the non-contact memory 4 is not mounted, the process proceeds to step S3, and if it is mounted, the process proceeds to step S2.
S2: An instruction to write individual information such as a process type number (process history) to be executed and a code for identifying a destination in the non-contact memory 4 from the manufacturing process side control unit C1. By being output to the transceiver 6, each information is written in the contactless memory 4 in a contactless manner. Here, the transceiver 6 may be performed alone without an instruction from the manufacturing process side control unit C1.
The process type number to be executed and the individual information are stored in advance in the main body side internal storage unit built in the manufacturing process side control unit C1.
S3: If it is determined in step S1 that the non-contact memory 4 is not mounted on the tray 1, information indicating that the non-contact memory 4 is not mounted on the tray 1 is displayed on the operation panel or the like. Notify the worker by displaying on the screen.
[0030]
In this way, the process type number to be executed and the individual information are stored in the non-contact memory 4 in the series of processes in steps S1 to S3.
[0031]
Next, the process of the said process 2 is demonstrated using FIG. Further, reference numerals S10, S11,... In FIG. 6 denote step (processing procedure) numbers, respectively.
S10: The manufacturing process side control unit C1 determines whether or not the individual information is stored in the non-contact memory 4 mounted on the tray 1. If it is not stored, this process is terminated. If it is stored, the process proceeds to step S11.
S11: The individual information is acquired from the non-contact memory 4 by using the transceiver 10, and the acquired individual information is transmitted to the writer 7 through the cable 8. Here, the acquisition of the individual information may be performed by the transceiver 10 according to an instruction issued from the manufacturing process side control unit C1, or may be performed by the transceiver 10 alone.
S12: A storage unit provided in the writer 7 or a storage unit provided in the manufacturing process side control unit C1 connected to the writer 7 (an example of general information storage means; hereinafter referred to as an internal storage unit). Attribute information related to the destination that matches the individual information acquired in step S11 in the setting information of all destinations stored in advance (an example of general information; hereinafter referred to as general information). The manufacturing process side control unit C1 determines whether or not there is any. If it is not stored in the internal storage unit, this process is terminated, and if it is stored, the process proceeds to step S13.
S13: Since the attribute information that matches the individual information exists in the general information stored in the internal storage unit, the attribute information corresponding to the internal storage unit is based on the individual information. Is selected by the manufacturing process side control unit C1.
S14: The manufacturing process side control unit C1 stores the attribute information selected in step S13 in the nonvolatile memory 5 from the writer 7 via the cable 9 and the writing connector 2.
S15: The manufacturing process side control unit C1 writes in the non-contact memory 4 which destination information the attribute information stored in the nonvolatile memory 5 in the step S14 is. An instruction is issued to the transceiver 10 to end this process. Here, the processing of step S15 may be performed by the transceiver 10 alone.
[0032]
In this way, in the series of processing of step S10 to step S15, the information is stored in the internal storage unit based on the individual information for identifying the destination stored in advance in the non-contact memory 4. , Attribute information relating to the corresponding destination is selected from the general information which is the setting information of all destinations, and is stored in the nonvolatile memory 5. That is, the non-volatile memory 5 stores the attribute information only for the necessary destination, and does not need the capacity of the non-volatile memory unnecessarily.
[0033]
Next, the process of the said process 3 is demonstrated using FIG. In FIG. 7, reference numerals S20, S21,... Denote step (processing procedure) numbers, respectively.
S20: Whether or not the individual information and process history stored in step S2 (process 1) are stored in the non-contact memory 4 is determined using a sensor or the like included in the manufacturing process control unit C1. Determine. If the individual information of the destination and the process history are stored, the process proceeds to step S21, and if not stored, the process proceeds to step S26.
S21: Whether or not the information on which destination attribute information stored in the nonvolatile memory 5 is stored in the non-contact memory 4 is stored in the non-contact memory 4 and stored in the step S15 (step 2). It discriminate | determines using the sensor etc. which the process side control part C1 has. If the information is stored, the process proceeds to step S22, and if not stored, the process proceeds to step S26.
S22: The manufacturing process side control unit C1 issues an instruction to the transceiver 11 to acquire the information confirmed in the steps S20 and S21 (the transceiver 11 may perform alone). Thereafter, collation for each piece of information, such as whether or not there is a difference between the obtained pieces of information, is performed by the apparatus controlled by the manufacturing process side control unit C1 or the transceiver 11.
S23: As a result of the collation of each information in step S22, if there is a difference between the information, the process proceeds to step S26, and if there is no difference, the process proceeds to step S24.
S24: If it is determined by the apparatus controlled by the manufacturing process side control unit C1 or the transceiver 11 that there is no difference in the information in step S23, there is no abnormality in the manufacturing process, and the tray The non-contact memory 4 is removed from 1 by an operator or the like.
S25: All the information stored in the removed non-contact memory 4 is erased by the manufacturing process control unit C1, and the process is terminated.
S26: If the information required in step S20 or step S21 is not stored in the non-contact memory 4 or if the information is different in step S23, a problem occurred during the manufacturing process. The manufacturing process side control unit C1 displays the information to that effect on the operation panel or the like to notify the worker.
[0034]
In this way, in the series of processing from step S20 to step S26, it is determined whether or not the attribute information regarding the destination stored in the nonvolatile memory 5 in step 2 is correct.
[0035]
The processes in steps S1 to S3, steps S10 to S15, and steps S20 to S26 are the programs stored in the internal storage unit on the manufacturing process main body (individual information storage control program, information recording device control program). However, the said process 1, the said process 2, and the said process 3 are implemented by being controlled by the said manufacturing process side control part C1. Therefore, it can be said that the above-described series of processing is a series of functions executed by these programs.
[0036]
【The invention's effect】
As described above, according to the present invention, in the manufacturing process of an image forming apparatus, attribute information necessary for each image forming apparatus is stored in individual information storage means such as a nonvolatile memory mounted in the image forming apparatus. When storing, the individual information for identifying the target image forming apparatus is read in advance from the information recording member, and the corresponding attribute information is read based on the read individual information. By selecting and storing only the attribute information in the individual information storage means, the individual information storage means can be used semi-permanently over and over, resulting in cost reduction of the product. It has a connected effect.
Further, an information recording member such as a non-contact memory used in the present invention can be formed as long as it is detachably mounted on a transport device such as a tray for transporting the substrate during the manufacturing process of the image forming device. When the manufacturing process of the apparatus is completed, the information recording member can be reused by removing the information recording member from the transporting apparatus and reattaching the information recording member to the transporting apparatus that transports an unprocessed substrate. As a result, it has the effect of reducing costs in the manufacturing process without wasting resources.
[Brief description of the drawings]
FIG. 1 is a chart showing a list of setting information to be written in a nonvolatile memory using a writer.
FIG. 2 is a configuration diagram of a process history writing process (process 1) to a non-contact memory mounted on a transport tray in a manufacturing process of an image forming apparatus according to an embodiment of the present invention.
FIG. 3 is a configuration diagram of individual information writing processing (step 2) to the nonvolatile memory according to the embodiment.
FIG. 4 is a configuration diagram of a final process process (process 3) in which a manufacturing process check according to the embodiment is performed.
FIG. 5 is a flowchart showing processing in step 1;
FIG. 6 is a flowchart showing processing in step 2;
FIG. 7 is a flowchart showing processing in step 3;
[Explanation of symbols]
1 ... Tray
2 ... Connector for writing
3 ... Board
4 ... Non-contact memory
5 ... Non-volatile memory
6, 10, 11 ... Transceiver capable of non-contact communication with non-contact memory
7 ... writer
8: Cable for communication between writer and transceiver
9: Cable for communication between writer and nonvolatile memory
C ... Manufacturing process side controller

Claims (20)

An individual information recording system comprising an image forming apparatus, an information recording apparatus for recording information relating to the image forming apparatus, and a transport device for transporting the image forming apparatus or its parts during the manufacturing process,
A general information storage unit provided in the information recording apparatus, in which general information about the image forming apparatus is stored in advance;
Individual information storage means provided in the image forming apparatus for storing individual information regarding the individual image forming apparatus in the general information and attribute information thereof;
Information writing provided in the information recording device for acquiring attribute information corresponding to the individual information from the general information storage means based on the individual information acquired by a predetermined sensor and writing it into the individual information storage means And an individual information recording system comprising means,
The individual information recording system, wherein the information writing means of the information recording apparatus acquires the individual information relating to an individual image forming apparatus from the information recording member mounted on the transporting device by the predetermined sensor. The individual information recording system according to claim 1, wherein the predetermined sensor acquires information recorded on the information recording member in a non-contact manner. 3. The individual information recording system according to claim 1, further comprising an information recording member writing unit that writes information on the individual information written in the individual information storage unit to the information recording member. The individual information recording system according to any one of claims 1 to 3, further comprising process information writing means for writing information on processing history of each manufacturing process of the image forming apparatus to the information recording member. The individual information recording system according to claim 4, wherein the history is information relating to completion and / or non-completion of a process. Evaluation of the manufacturing process of the image forming apparatus based on the information written on the information recording member by the process information writing means and the information written on the information recording member by the information recording member writing means 6. The individual information recording system according to any one of claims 1 to 5, further comprising a process evaluation unit that performs the process. The individual information recording system according to claim 6, wherein the evaluation is an evaluation relating to suitability / unsuitability of a process. The individual information recording system according to claim 1, wherein the information recording member is detachably attached to the transporting device. An individual information recording system comprising an image forming apparatus, an information recording apparatus for recording information relating to the image forming apparatus, and a transport device for transporting the image forming apparatus or its parts during the manufacturing process,
General information storage means provided in the information recording apparatus and preliminarily storing general information relating to the image forming apparatus, and individual information relating to individual image forming apparatuses included in the general information provided in the image forming apparatus. Individual information storage means for storing the specific information and its attribute information, and corresponding to the individual information from the general information storage means provided in the information recording device based on the individual information acquired by a predetermined sensor In an information recording device provided in an individual information recording system comprising information writing means for acquiring attribute information and writing it in the individual information storage means,
The information recording apparatus, wherein the information writing means acquires the individual information related to the individual image forming apparatus from the information recording member mounted on the transporting device by the predetermined sensor. The information recording apparatus according to claim 9, wherein the predetermined sensor acquires information recorded on the information recording member in a non-contact manner. 11. The information recording apparatus according to claim 9, further comprising an information recording member writing unit that writes information related to individual information written in the individual information storage unit to the information recording member. The information recording apparatus according to claim 9, further comprising a process information writing unit that writes information on a processing history of each manufacturing process of the image forming apparatus on the information recording member. 13. The information recording apparatus according to claim 12, wherein the history is information relating to the end of the process and / or (Note; related portion correction) incomplete. Evaluation of the manufacturing process of the image forming apparatus based on the information written on the information recording member by the process information writing means and the information written on the information recording member by the information recording member writing means The information recording apparatus according to claim 9, further comprising a process evaluation unit that performs the operation. The information recording apparatus according to claim 14, wherein the evaluation is an evaluation relating to suitability / unsuitability of a process. The information recording device according to claim 9, wherein the information recording member is detachably attached to the transport device. An individual information recording system comprising an image forming apparatus, an information recording apparatus for recording information relating to the image forming apparatus, and a transport device for transporting the image forming apparatus or its parts during the manufacturing process, General information storage means provided in the information recording apparatus and preliminarily storing general information relating to the image forming apparatus, and individual information relating to individual image forming apparatuses included in the general information provided in the image forming apparatus. Individual information storage means for storing the specific information and its attribute information, and corresponding to the individual information from the general information storage means provided in the information recording device based on the individual information acquired by a predetermined sensor A program for controlling an individual information recording system comprising information writing means for acquiring attribute information and writing it into the individual information storage means,
An individual information storage control program for realizing a function in which the information writing unit of the information recording apparatus acquires the individual information regarding the individual image forming apparatus from the information recording member mounted on the transporting device by the sensor. The individual information storage control program according to claim 17, wherein the information recording member is detachably attached to the transporting device. An individual information recording system comprising an image forming apparatus, an information recording apparatus for recording information relating to the image forming apparatus, and a transport device for transporting the image forming apparatus or its parts during the manufacturing process,
General information storage means provided in the information recording apparatus and preliminarily storing general information relating to the image forming apparatus, and individual information relating to individual image forming apparatuses included in the general information provided in the image forming apparatus. Individual information storage means for storing the specific information and its attribute information, and corresponding to the individual information from the general information storage means provided in the information recording device based on the individual information acquired by a predetermined sensor A program for controlling an information recording device provided in an individual information recording system comprising: an information writing means for acquiring attribute information and writing it in the individual information storage means, and the information writing means is attached to the transport device An information recording apparatus system for realizing a function of acquiring the individual information regarding the individual image forming apparatus from the information recording member to be obtained by the sensor. Program. 20. The information recording device control program according to claim 19, wherein the information recording member is detachably attached to the transport device.

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