JP2008185617A - Image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent erroneous operation caused by setting of a wrong function when the function of an image forming apparatus is added. <P>SOLUTION: A nonvolatile memory (NVRAM) in a control unit holds a machine type code indicating the set contents of functions and a machine code specific to the image forming apparatus. When a function is added, a comparison is made whether the machine code stored in the image forming apparatus and the machine code held in the control unit match. If the machine codes match, the function based on the machine code held in the control unit is added. This prevents addition of a wrong function when the control unit is erroneously replaced or a wrong machine code is input in the control unit. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an image forming apparatus to which a function can be added, and more particularly to an image forming apparatus in which various function settings are added according to a model code.

Conventionally, a method is generally employed in which a semi-finished product is manufactured at a domestic factory, exported to an overseas location, and final adjustment is performed locally before being sold as a product.
For example, in the final adjustment stage, an image forming apparatus or the like adds functions to the common component machine of the image forming apparatus (such as presence or absence of ADF (an apparatus that automatically sends a document) and finisher (binding processing such as saddle stitching)). Thus, it is possible to provide products having various functions corresponding to user needs.
As described above, if the image forming apparatuses are configured by the same common component machine, the functions can be expanded in various ways by adding functions to the common component machine, and various lineups can be provided.
Furthermore, at the domestic shipping stage, concentrating management only on common component machines is effective in reducing inventory and improving inventory management efficiency.

And, by switching the hard switch provided in the control unit of such a common component machine according to the function expansion, various functions from various functions (multiple models) from higher functions to lower functions are set and added. A forming device has been developed.
For example, such an image forming apparatus has a function corresponding to each model by referring to a “code number representing a model” (hereinafter referred to as “model code”) such as a hard switch or a model identification memory when the power is turned on. Some have setting means for adding.
By the way, in Patent Document 1, when the compatible model name code of the multifunction device does not match the compatible model name of the option board, the option board becomes inoperable, and therefore it is determined whether or not the option board is valid. Thus, a communication terminal device capable of preventing malfunction is disclosed.
Patent Document 2 discloses an image forming apparatus that sets a copy function, a printer function, and the like by setting and changing the CPU operating frequency for each function and model.
Patent Document 3 discloses a video scope of an electronic endoscope apparatus that processes an image signal based on register setting data corresponding to a processor model by determining the model of the processor.
JP 2003-32418 A JP 2004-66598 A JP 2003-284683 A

However, in the above cited reference description technology, when the control unit of the common component machine is mistakenly replaced, or when an incorrect model code is input to the control unit during production at the factory or inspection by a service person, etc. In addition, the function of the common component machine is expanded by the wrong model code as it is, so that it is impossible to completely prevent malfunctions and malfunctions due to replacement mistakes and setting mistakes.
For example, if the model code is set by mistake so that the hardware switch that represents the model or the contents of the model identification memory is set to a higher-level device than the device that you actually want to produce, the common component machine will set the higher-level model as it is. There is a problem of going.

Therefore, the present invention can form an image as it is when the control unit is mistakenly replaced by the management based on the conventional “model code”, or when the model code is set to a higher-order device than the device that is actually desired to be produced. When the image forming apparatus expands the function, the apparatus adds a function based on an incorrect model code held in the control unit of the common component machine. The first object is to prevent erroneous function setting.
It is a second object of the present invention to prevent malfunction caused by incorrect function settings of the image forming apparatus and to improve reliability.

According to the first aspect of the present invention, in the image forming apparatus in which various function settings can be added, the machine code storage means storing the machine code unique to the image forming apparatus, and the model indicating the setting contents of the function to be added A control unit that holds a code and a machine code unique to the image forming apparatus and can be exchanged for the image forming apparatus, and is stored in the machine code storage means when the setting of the function is added A machine code and a machine code comparing means for comparing the machine code held in the control unit, and when the machine code matches with the machine code comparing means, the control unit is regarded as an appropriate control unit. The first and second objects are achieved by accepting the function setting addition based on the model code held in the control unit. To.
In the invention of claim 2, in the invention of claim 1, when the machine code stored in the machine code storage means and the machine code held in the control unit are not set, a new machine code is set. And a machine code setting unit that sets the newly set machine code as an arbitrary value or an identification number unique to the image forming apparatus such as a machine serial number.
According to a third aspect of the present invention, in the first aspect of the present invention, a generation unit that generates a numerical value combining any one of arbitrary values, date information, and random numbers, or any two or more, and the generation unit generates And a machine code update means for updating the value obtained by adding or rewriting the machine code stored in the machine code storage means and the machine code held in the control unit. .
According to a fourth aspect of the present invention, in the third aspect of the present invention, the aircraft code update means stores the aircraft code stored in the aircraft code storage means and the aircraft code held in the control unit after a predetermined time interval. It is characterized by updating.
According to a fifth aspect of the invention, in the third aspect of the invention, the machine code update means updates the machine code stored in the machine code storage means and the machine code held in the control unit when the power is turned on. It is characterized by doing.

According to the present invention, the machine code stored in the machine code storage means and the machine code held in the control unit are compared, and only when they match, the control unit is held in the control unit as an appropriate control unit. Accept function addition based on model code.
Then, when the control unit is mistakenly replaced, or when the model code is set in the control unit by mistake, it is possible to prevent erroneous function setting when the image forming apparatus performs function expansion.

(1) Outline of Embodiment The model code indicating the setting contents of the function and the machine code unique to the image forming apparatus are held in the nonvolatile memory (NVRAM) in the control unit.
When the function is added, the machine code stored in the image forming apparatus is compared with the machine code held in the control unit. When the machine code matches, the machine code is held in the control unit. Since the function is added based on the model code, it is possible to prevent the addition of an incorrect function when the control unit is mistakenly replaced or when an incorrect machine code is input to the control unit.
(2) Details of Embodiment First, a preferred embodiment of the present invention will be described in detail with reference to FIGS.
FIG. 1 is a block diagram showing a configuration of an image forming apparatus according to the present embodiment.
As shown in FIG. 1, the image forming apparatus includes a scanner 110, a plotter 120, a mechanical control unit 130, a nonvolatile memory B132, an operation display unit 140, a printer control unit 150, a system control unit 160, a timer 162, and a nonvolatile memory A164. Composed.

The scanner 110 reads a document image with a predetermined resolution. The machine code and model code can be read directly from this scanner.
The plotter 120 outputs data obtained by recording a recorded image with a predetermined resolution. By outputting data from the plotter 120, it is possible to notify the function setter of the occurrence of an abnormality in the system and a warning related to the abnormality of the model code and the machine code.
The mechanical control unit 130 controls devices such as the scanner 110 and the plotter 120. A non-volatile memory B132 is built in the mechanical control unit 130, and a model code and a machine code can be held in the non-volatile memory B132.
The model code and the machine code are codes representing the extended contents of the function. For example, the model code and the machine code are input at the time of factory shipment or when a serviceman checks.
The operation display unit 140 displays various input keys necessary for operating the image forming apparatus, various operation guidance messages, time, and the like.
The operation display unit 140 can display a notice of abnormality and notify the function setter of a warning when the model code and the machine code are abnormal.
The printer control unit 150 executes a print command from an information terminal device such as a connected personal computer (not shown), and controls devices related to the execution.
The system control unit 160 performs processing inside the image forming apparatus and each element, and controls components necessary for setting functions based on the model code, comparing / determining machine code, and the like. The system control unit 160 includes a timer 162 and a nonvolatile memory A164, and can update the machine code held in the mechanical control unit 130 at regular time intervals.
The nonvolatile memory A164 can store the model code and the machine code in the built-in memory.

In the present embodiment, the system control unit 160 compares the body codes stored in the nonvolatile memory A164 and the nonvolatile memory B132.
If the machine codes match, the system control unit 160 performs additional function settings based on the model code held in the nonvolatile memory B132 of the mechanical control unit 130.
If the machine code does not match, the system control unit 160 rejects the additional setting of the function based on the model code held in the nonvolatile memory B132 of the mechanical control unit 130. Then, a warning regarding the model code and the machine code is given to the function setting person on the operation display unit 140, and the image forming apparatus is fixed in the standby mode.
In this embodiment, the mechanical control unit 130 is a control unit, and the mechanical control unit 130 can be exchanged at any time by a service person or the like. Further, the machine code can be input to the nonvolatile memory B132 in the mechanical control unit 130 by a serviceman or the like.
Although FIG. 1 shows an example in which two nonvolatile memories A164 and B132 are used, the present invention can be implemented even if the memory is composed of three or more nonvolatile memories.
In addition, information related to the machine code and the model code can be stored in these nonvolatile memories as needed from an information terminal device such as a personal computer (not shown).

FIG. 2 is a flowchart showing an operation procedure according to the first embodiment of the present invention.
First, when the image forming apparatus is powered on (step 201), it is checked whether or not the history of the machine code held in the nonvolatile memory A164 and the nonvolatile memory B132 is “0 (no data)” (step 202). ). If the machine code is “0” (step 202; Y), it is recognized that the machine code has not been set, and a new machine serial number unique to the apparatus is set as the machine code (step 203). “1 (data present)” is set (step 204).
Then, the machine code stored in the nonvolatile memory A164 and the nonvolatile memory B132 is compared (step 205). If the machine code history is a value other than “0” (step 202; N), the machine code is compared as it is (step 205).
As a result of the machine code comparison, if the machine codes of the volatile memory A164 and the non-volatile memory B132 match (step 205; Y), the model codes stored in the non-volatile memory A164 and the non-volatile memory B132 are then compared (step 206). ).
If the model codes of the non-volatile memory A 164 and the non-volatile memory B 132 match as a result of the model code comparison (step 206; Y), the mechanical control unit 130 is held in the mechanical control unit 130 as an appropriate control unit. The function is added with the selected model code (step 207).
If these machine code and model code do not match (step 205; N and step 206; N), it is determined that the system is abnormal and a warning regarding the model code and machine code is given to the function setter. This is performed and fixed in the standby mode (step 208).

  In the first embodiment, when the model code for expanding the function is mistakenly input at the time of production in the conventional factory or at the time of inspection by a service person, or when the control unit is mistakenly replaced, it remains as it is. The function of the image forming device was extended by the wrong model code, but the function code was expanded based on the comparison result by comparing the machine code of the image forming device and the machine code of the control unit. A deterrent effect that makes it difficult to expand the function can be expected.

  In the first embodiment, an example is shown in which two memories, the nonvolatile memory A164 and the nonvolatile memory B132, are used. It is also possible to do this.

FIG. 3 is a flowchart showing an operation procedure according to the second embodiment of the present invention.
First, when the image forming apparatus is powered on (step 301), it is confirmed whether or not the history of the machine code held in the nonvolatile memory A164 and the nonvolatile memory B132 is “0 (no data)” (step 302). ). When the machine code is “0” (step 302; Y), it is recognized that the machine code is not set, and a new machine serial number unique to the apparatus is set as the machine code (step 303). It is set to “1 (there is data)” (step 304).
Then, the machine code stored in the nonvolatile memory A164 and the nonvolatile memory B132 is compared (step 305).
If the machine code history is a value other than “0” (step 302; N), the machine code is compared as it is (step 305).
If the machine code of the nonvolatile memory A164 and the nonvolatile memory B132 match as a result of the machine code comparison (step 305; Y), then the machine code stored in the nonvolatile memory A164 and the nonvolatile memory B132 is updated (step 305). 306).
Next, the model codes stored in the nonvolatile memory A164 and the nonvolatile memory B132 are compared (step 307).
If the model codes of the nonvolatile memory A 164 and the nonvolatile memory B 132 match as a result of comparison of the model codes (step 307; Y), the mechanical control unit 130 is held in the mechanical control unit 130 as an appropriate control unit. The function is added by the model code (step 308).
If these machine code and model code do not match (step 305; N and step 307; N), it is determined that the system is abnormal and a warning regarding the model code and machine code is given to the function setter. For this, the standby mode is fixed (step 309).

The aircraft code update executed in step 306 is as follows.
1) Arbitrary numerical values 2) Date information 3) Random numbers, etc. Updates by adding or rewriting numerical values that combine any one of 1) to 3) (a numerical value that combines two or more) can do. By updating the machine code, it is possible to prevent a malfunction of the setting means that occurs when a third party or the like makes an incorrect setting, so that the reliability of the manufactured image forming apparatus can be improved.

Further, the update of the machine code executed in step 306 can be set when the power is turned on or at a certain time interval.
In addition, when the power is turned on or at a certain time interval, it can be used as a low energy mode at the time of return or the like, so that power can be saved.

  As described above, in the second embodiment, the update of the aircraft code is automatically reset when the power is turned on and at intervals of a predetermined time, so that it is possible to expect a deterrent effect that makes it difficult to perform erroneous function setting. .

1 is a block diagram illustrating a configuration of an image forming apparatus according to an embodiment of the present invention. It is the flowchart which showed the operation | movement procedure which concerns on the 1st Embodiment of this invention. It is the flowchart which showed the operation | movement procedure which concerns on the 2nd Embodiment of this invention.

Explanation of symbols

110 Scanner 120 Plotter 130 Mechanical Control Unit 132 Nonvolatile Memory B
140 Operation Display Unit 150 Printer Control Unit 160 System Control Unit 162 Timer 164 Nonvolatile Memory A

Claims (5)

In an image forming apparatus in which various function settings can be added,
Machine code storage means for storing machine code unique to the image forming apparatus;
A model unit indicating the setting contents of the function to be added and a machine code unique to the image forming apparatus, and a control unit exchangeable for the image forming apparatus,
In the case of performing the setting addition of the function, further comprising a machine code stored in the machine code storage means and a machine code comparison means for comparing the machine code held in the control unit,
When the machine code is matched by the machine code comparing means, the control unit is regarded as an appropriate control unit, and an additional function setting is received based on the model code held in the control unit. apparatus. When the machine code stored in the machine code storage means and the machine code held in the control unit are not set, the machine code setting means for newly setting the machine code is further provided,
2. The image forming apparatus according to claim 1, wherein the machine code setting unit sets the newly set machine code as an arbitrary value or an identification number unique to the image forming apparatus such as a machine serial number. Generation means for generating a numerical value combining any one of arbitrary values, date information, random numbers, or any two or more;
Aircraft code update means for updating the value generated by the generating means by adding or rewriting the airframe code stored in the airframe code storage means and the airframe code held in the control unit. The image forming apparatus according to claim 1.   4. The image forming apparatus according to claim 3, wherein the machine code update unit updates the machine code stored in the machine code storage unit and the machine code held in the control unit after a predetermined time interval.   4. The image forming apparatus according to claim 3, wherein the machine code update means updates the machine code stored in the machine code storage means and the machine code held in the control unit when the power is turned on.

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