JP2011209491A - Image forming apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To obtain a composition capable of notifying a user that a possibility for an abnormality exists in serial communication due to one of power source cords not being connected to a commercial AC power source by using an existing hardware composition of an image forming apparatus which is individually connected to the commercial AC power source by power source cords having two different control means for carrying out the serial communication through mutually provided communication ports.SOLUTION: When a fixing control section 63 cannot normally receive periodical signals transmitted from a main control section 1 by serial communication, level variation signals are output with signal level varying at fixed intervals and having a main control section 1 detect whether or not the level variation signal is input when a response signal that is returned from a fixing control section 63 cannot be normally received after transmission of the periodical signals. In addition, when the level variation signals are not detected, information prompting confirmation of connection of a power source cord 92 is displayed.

Description

  The present invention relates to an image forming apparatus in which two control units that perform serial communication in accordance with a predetermined communication protocol via mutually provided communication ports are individually connected to a commercial AC power source by different power cords. The present invention relates to a technique for determining the cause of an abnormality when an abnormality occurs in serial communication.

In recent years, electrophotographic image forming apparatuses such as copying machines, printers, and facsimiles tend to increase the power consumption of the entire apparatus due to the increase in size and functionality. For example, for high-speed processing, the amount of heat to heat and fix the toner on the recording medium increases, or for high color and high accuracy, high-voltage load, motor load, and circuit load increase. Electricity is increasing.
As described above, since the power consumption of the apparatus tends to increase, power shortage may occur only by receiving power supplied from the power source with a single power cord. That is, for example, in Japan, when receiving power from a normal single-phase 100 V AC power source with a single power cord, the current is limited to 15 A or less, so in an image forming apparatus whose power consumption exceeds 15 A, a single power cord is used. It may be difficult to supply power with the power cord.
For this reason, some recent image forming apparatuses are provided with a plurality of power cords, and the power supply destination in the apparatus is divided so that each has a capacity equal to or less than a capacity that can be covered by a single power cord. . Specifically, a fixing unit including a power cord connected to a commercial AC power source for supplying power to a main device unit including a main control unit that comprehensively controls the entire device, and a heater that consumes particularly large power It is known that a power cord connected to a commercial AC power source for supplying electric power to the device is provided separately (see, for example, Patent Document 1). In recent image forming apparatuses, a fixing control unit provided in the fixing unit controls the fixing unit based on a control signal transmitted from the main control unit by serial communication performed with the main control unit.

By the way, in such an image forming apparatus provided with a power cord for supplying power to each of the main device unit and the fixing unit, a user may forget to connect one or more power cords among the plurality of power cords. Once connected, it may fall off for some reason. In such a case, of course, the image forming apparatus does not operate normally.
In particular, when the power cord for supplying power to the main unit is normally connected and the power cord for supplying power to the fixing unit is not connected, the main power of the image forming apparatus is turned on. In some cases, an abnormality occurs in serial communication performed between the image forming unit and the fixing control unit, and the image forming apparatus does not operate normally. In such a case, the user determines whether the serial communication abnormality that has occurred is due to the power not being supplied to the fixing unit or other reasons (for example, communication abnormality due to noise, etc.). There is a problem in that the image forming apparatus cannot be promptly restored to a normal state even if the image forming apparatus cannot be distinguished and the power is not supplied to the fixing unit.
Therefore, Patent Document 1 proposes providing a connection detection means for determining whether or not a power cord for the fixing unit is connected by detecting a voltage applied to the fixing unit.

JP 2008-86191 A

However, in the image forming apparatus of Patent Document 1, it is necessary to add connection detection means for determining whether or not the power cord for the fixing unit is connected as a hardware configuration, which increases the cost. is there.
Therefore, the present invention has been made in view of the above circumstances, and its object is that two control means for performing serial communication in accordance with a predetermined communication protocol via communication ports provided mutually are different. Using the existing hardware configuration of an image forming device that is individually connected to a commercial AC power supply by a power cord, an error may have occurred in serial communication because one power cord is not connected to the commercial AC power source It is to realize a configuration capable of notifying the user when there is a possibility.

In order to solve the above-described problems, the present invention provides first control means and second control means for performing serial communication in accordance with a predetermined communication protocol via mutually provided communication ports, and the first control. A first power cord and a second power cord connected to a commercial AC power source for individually supplying power to the first control means and the second control means, wherein the second control means The present invention is applied to an image forming apparatus that controls a predetermined device to be controlled based on a control signal transmitted from the first control means.
In the image forming apparatus according to the present invention, the first control unit transmits a periodic signal to the second control unit at a predetermined interval by the serial communication, and a predetermined number of times of the periodic signal. Or after the elapse of a predetermined time period, a response signal from the second control means is not normally received by the serial communication, and is set in the communication port of the first control means. Level change signal detection means for detecting whether or not a level change signal whose signal level changes at intervals is input; and when the level change signal detection means does not detect the input of the level change signal, And confirmation display means for displaying predetermined information for prompting confirmation of the power cord 2 on a predetermined display means.
Further, the second control means transmits a response signal to the first control means by the serial communication in response to reception of the periodic signal transmitted from the first control means. And the level change signal from the communication port of the second control means on condition that the regular signal from the first control means is not normally received by the serial communication within a preset period. And an abnormal signal output means for outputting.
The level change signal is a digital signal whose signal level (voltage) is inverted between “0” and “1”, for example.
According to the present invention, the first control means determines whether or not the cause of the abnormality that has occurred in the serial communication may be that the second power cord is not connected to the commercial AC power source. Since the determination can be made using the communication port, which is an existing hardware configuration used for serial communication, a hardware configuration for detecting that the power cord is not connected as in Patent Document 1 is separately provided. There is no need, and the configuration can be simplified and the cost can be reduced. When there is a possibility that the cause of the abnormality of the serial communication is that the second power cord is not connected, the second power supply is displayed by displaying the predetermined information on the predetermined display means. Since the user is prompted to confirm the connection of the cord, when the second power cord is not actually connected, early recovery of the abnormal state of the serial communication can be achieved.

By the way, when the input of the level change signal is detected by the level change signal detection means, since the level change signal is output from the second control means, the second power cord is used for the second change. It can be determined that power is supplied to the control means.
Therefore, the first control means further comprises communication abnormality notifying means for notifying that there is a communication abnormality in the serial communication when the input of the level change signal is detected by the level change signal detecting means. It is desirable to become. Note that the communication abnormality notifying means notifies the user by displaying on the predetermined display means that the communication abnormality is in the serial communication, or indicates that the communication abnormality is in the serial communication. You may alert | report to a maintenance server etc. via a predetermined | prescribed communication network.
As a result, it is possible to know that a serial communication error has occurred due to a cause other than the fact that the second power cord is not connected. The image forming apparatus can be restored to a normal state at an early stage.
Note that the predetermined information displayed on the display means by the confirmation display means may be information that prompts confirmation of connection between the second power cord and a commercial AC power supply.
Further, as the predetermined control target device, specifically, a fixing device may be mentioned.

  According to the present invention, there is a possibility that an abnormality has occurred in the serial communication because the second power cord is not connected to the commercial AC power source using the existing hardware configuration of the image forming apparatus. It is possible to realize a configuration capable of notifying the user of such a situation. Therefore, it is not necessary to separately provide a hardware configuration for detecting that the power cord is not connected as in Patent Document 1, and the configuration can be simplified and the cost can be suppressed. Of course, since the display of the predetermined information on the predetermined display means prompts the user to confirm the connection of the second power cord, the serial communication is performed when the second power cord is not actually connected. It is possible to achieve early recovery of abnormal conditions.

1 is a block diagram showing a schematic configuration of an image forming apparatus according to the present invention. 6 is a flowchart showing an example of a communication control processing procedure of the image forming apparatus according to the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings so that the present invention can be understood. The following embodiment is an example embodying the present invention, and does not limit the technical scope of the present invention.
First, a schematic configuration of the multifunction machine X according to the embodiment of the present invention will be described with reference to FIG.
As shown in FIG. 1, a multi-function machine X according to an embodiment of the present invention includes a main control unit 1, an operation display unit 2, an image reading unit 3, an image processing unit 4, an image forming unit 5, a fixing device 6, a power source. An apparatus 7, an interruption circuit 8, and the like are schematically configured. The multifunction machine X is merely an example of an image forming apparatus according to the present invention. For example, a copier, a facsimile machine, a printer apparatus, and the like also correspond to the image forming apparatus according to the present invention.

The main control unit 1 has a CPU, peripheral devices such as a ROM and a RAM, and the CPU executes the processing in accordance with a predetermined control program stored in the ROM, whereby the multifunction device X is It is the one that controls in an integrated manner. The main control unit 1 may be configured by an electronic circuit such as an integrated circuit (ASIC).
Further, the main control unit 1 includes a communication port 11 as a communication interface for performing signal transmission with a fixing control unit 63 (described later) provided in the fixing device 6. For example, the main control unit 1 performs serial communication with the fixing control unit 63 through the communication port 11 in accordance with a predetermined control protocol.
Here, in the present embodiment, the main control unit 1 and the fixing control unit 63 will be described as an example of a first control unit and a second control unit. On the other hand, for example, the engine control unit (CPU) provided in the main control unit 1 and the image forming unit 5 or the engine control unit and the fixing control unit 63 is regarded as a first control unit and a second control unit. Also good. Further, not only the fixing control unit 63 of the fixing device 6 but also a post-processing device (device to be controlled) that executes post-processing such as punch processing and stapling processing is provided. A control unit that controls the post-processing apparatus corresponds to a first control unit and a second control unit.

The operation display unit 2 has a liquid crystal display, a touch panel, various operation keys, and the like for displaying various types of information on the multifunction machine X and performing input operations by the user.
The image reading unit 3 has a CCD or the like for reading an image of a document placed on a document table (not shown) or a document conveyed by an automatic document feeder (ADF, not shown).
The image processing unit 4 performs various types of image processing on the image data read by the image reading unit 3 or image data input from the outside.
The image forming unit 5 includes components of a well-known electrophotographic image forming unit such as a photosensitive drum and a developing device, and various types of paper in the image processing unit 4 are supplied to a sheet supplied from a paper feed cassette. The image forming means forms a monochrome image or a color image based on the image data after the image processing.

The fixing device 6 melts and fixes the toner image on the sheet on which the toner image has been transferred by the image forming unit 5 and rotates while pressing the sheet conveyed from the image forming unit 5. The fixing roller 61, a heater 62 for heating the fixing roller 61 by induction heating, and the driving of the fixing device 6 as a whole, such as the fixing roller 61 and the heater 62, are controlled in accordance with a control instruction from the main control unit 1. And a fixing control unit 63.
The fixing control unit 63 includes a CPU, peripheral devices such as a ROM and a RAM, and the CPU executes processing according to a predetermined control program stored in the ROM, thereby Controls the set temperature and the presence or absence of driving. The fixing control unit 63 may be constituted by an electronic circuit such as an integrated circuit (ASIC).
Further, the fixing control unit 63 includes a communication port 64 as a communication interface for performing signal transmission with the main control unit 1. For example, the fixing control unit 63 performs serial communication with the main control unit 1 through the communication port 64 according to a predetermined control protocol.

Further, the multifunction device X supplies power to the power supply device 7 to supply power to the power supply device 7 and a power cord 91 (an example of a first power cord) connected to a commercial AC power source. And a power cord 92 (an example of a second power cord) connected to a commercial AC power source.
The power supply device 7 transforms an AC voltage supplied from a commercial AC power supply via the power cord 91, and excludes the fixing device 6, the main control unit 1, the operation display unit 2, and the image reading unit 3. , Driving power is supplied to the image processing unit 4 and the image forming unit 5.
On the other hand, in the fixing device 6, the heater 62 and the fixing controller 63 are connected to the heater 62 and the fixing control unit 63 based on an AC voltage supplied from a commercial AC power source via the power cord 92 by a power supply device (not shown) provided inside. Drive power is supplied. That is, in the multi-function machine X, the main control unit 1 and the fixing control unit 63 are individually supplied with power by connecting the power cord 91 and the power cord 92 to the commercial AC power source.
The shut-off circuit 8 is a circuit having a relay or the like for forcibly shutting off the power supply from the power cord 92 to the fixing device 6, and the presence or absence of the shut-off is controlled by the main control unit 1. Is done.

In the MFP X, the main control unit 1 and the fixing control unit 63 perform serial communication according to a predetermined communication protocol via the communication port 11 and the communication port 64 provided to each other. Thus, a control command is transmitted from the main control unit 1 to the fixing control unit 63. Accordingly, the fixing control unit 63 controls the fixing device 6 (an example of a control target device) based on the control command transmitted from the main control unit 1.
By the way, in the multi-function machine X, the power supply to the main control unit 1 and the fixing control unit 63 is individually performed via the power cords 91 and 92, so that only the plug of the power cord 91 is commercial AC. It is assumed that the power cord 92 is connected to a power outlet and the plug of the power cord 92 is not connected to a commercial AC power outlet. In this case, in the multi-function machine X, only the fixing device 6 that receives power supply from the power cord 92 is in a non-driven state, and the main control unit 1 and the like excluding the fixing device 6 are in a driving state. Therefore, an abnormality occurs in the serial communication executed between the main control unit 1 and the fixing control unit 63, so that the printing process or the like cannot be executed normally in the multifunction machine X. At this time, if the user originally connects the power cord 92 to a commercial AC power source, the abnormality of the serial communication can be recovered.

However, the cause of the abnormality in the serial communication that occurs in the multi-function device X is that the fixing cord 63 is not driven because the power cord 92 is not connected. It can also be caused by noise. For this reason, the cause of the serial communication abnormality cannot be identified, and it may take time to recover from the serial communication abnormality.
On the other hand, when the power cord 92 is not connected, the fixing control unit 63 is in a non-driven state. Therefore, if the presence or absence of the driving of the fixing control unit 63 can be confirmed, the power cord 92 is connected to commercial AC. The possibility of not being connected to the power source can be determined.
Therefore, in the multi-function machine X according to the embodiment of the present invention, the main control unit 1 and the fixing control unit 63 execute communication control processing described later, thereby using the existing hardware configuration to It is determined that there is a possibility that the cord 92 is not connected to the commercial AC power source, and when there is such a possibility, the user is notified that confirmation of connection of the power cord 92 is urged.

Hereinafter, an example of a communication control process executed by the main control unit 1 and the fixing control unit 63 in the multifunction machine X will be described with reference to the flowchart of FIG. In FIG. 2A, S1, S2,... Represent processing procedure (step) numbers of the main control unit 1, and S21, S22,. (Step) number.
A process for the main control unit 1 to transmit a control command to the fixing control unit 63 by the serial communication is also executed in parallel with the communication control process. Therefore, the description is omitted here.

(Main control unit 1 side: steps S1 to S3)
First, as shown in FIG. 2A, in step S1, the main control unit 1 sets the communication mode with the fixing control unit 63 to serial communication that executes serial communication according to a predetermined communication protocol. Set to mode.
In step S2, the main control unit 1 executes serial communication with the fixing control unit 63 via the communication port 11, thereby causing the fixing control unit 63 to communicate with the fixing control unit 63 at a predetermined interval (for example, 160 ms). A command signal (corresponding to a regular signal) is transmitted. Here, the main control unit 1 when executing such processing corresponds to a periodic signal transmission means.
Next, in step S3, the main control unit 1 receives a response signal from the fixing control unit 63 within a predetermined time (for example, 160 ms) set in advance after the command signal is transmitted in step S2. It is judged whether it was done.
Here, when it is determined that the response signal is received within the predetermined time (Yes side of S3), the process is returned to the step S2, and after that, the main control unit 1 continues the command signal at the predetermined interval. Send.
On the other hand, when it is determined that the response signal is not received within the predetermined time, such as when there is an abnormality in serial communication between the main control unit 1 and the fixing control unit 63 (No side of S3), The process proceeds to step S4. In addition to the case where the response signal is not received within the predetermined time in the step S3, the abnormality of the serial communication is detected when the abnormality of the serial communication is detected by the parity bit or the checksum at the time of the control command communication. Is also included.

(Main control unit 1 side: steps S4 to S5)
Subsequently, in step S4, the main control unit 1 determines that the number of retries N indicating the number of times the response signal from the fixing control unit 63 has not been normally received within the predetermined time is a predetermined number (for example, 3 times) or more. It is determined whether or not. The retry number N is reset by the main control unit 1 when it is determined in step S3 that the response signal from the fixing control unit 63 has been normally received within the predetermined time. , Its initial value is “1”.
Here, when it is determined that the number of retries N is less than the predetermined number (No in S4), the process proceeds to step S5. In step S5, the main controller 1 increments the retry count N by "1" (N = N + 1), and the process returns to step S2. Accordingly, in step S2, the main control unit 1 retransmits the command signal to the fixing control unit 63 by serial communication.
On the other hand, when it is determined that the number of retries N is greater than or equal to the predetermined number of times (Yes side of S4), that is, even after the command signal is repeatedly transmitted more than the predetermined number of times, the response signal is not normally received by the serial communication. If it is determined that a serial communication error has occurred, the process proceeds to step S6 described later. Here, the occurrence of serial communication abnormality is detected on the condition that the number of retries is equal to or greater than the predetermined number of times. However, if the response signal is not received even after the elapse of a predetermined period, the serial communication is abnormal. It may be determined that has occurred.

(Fixing control unit 63 side: steps S21 to S24)
On the other hand, as shown in FIG. 2B, in step S21, the fixing control unit 63 sets the communication mode with the main control unit 1 in accordance with a predetermined communication protocol as in the main control unit 1. Set the serial communication mode to execute serial communication.
In step S22, the fixing control unit 63 receives the command signal from the main control unit 1 in a predetermined time (for example, 500 ms) by serial communication performed via the communication port 64. It is determined whether or not it has been received. The predetermined time is longer than the time until the main control unit 1 determines that the number of retries N is equal to or greater than the predetermined number in step S4.
Here, when it is determined that the command signal is normally received by serial communication within the predetermined time (Yes side of S22), the process proceeds to step S23. In step S 23, the fixing control unit 63 executes serial communication via the communication port 64 in response to reception of the command periodic signal from the main control unit 1. 1 transmits a response signal. Here, the fixing controller 63 when executing the transmission process corresponds to a response signal transmission unit.
On the other hand, if it is determined that the command signal has not been normally received by serial communication within the predetermined time (No in S22), the process proceeds to step S24. In step S24, the fixing controller 63 forcibly stops the driving of the heater 62. Thus, even when an abnormality occurs in the serial communication between the main control unit 1 and the fixing control unit 63, the heating heater 62 is stopped to prevent abnormal heating by the heating heater 62. Is done.

(Fixing control unit 63 side: steps S25 to S26)
In step S25, the fixing control unit 63 switches the communication mode with the main control unit 1 from the serial communication mode to the output port mode. That is, in the multi-function device X, the communication port 64 is also used for signal transmission with the main control unit 1 in the serial communication mode and the output port mode. For example, the communication port 64 executes an asynchronous serial communication process or a synchronous serial communication process for receiving serial communication with the communication port 11 of the main control unit 1 in the serial communication mode. However, by switching to the output port mode by the fixing control unit 63, the serial communication processing is stopped, and it simply functions as an output port for outputting a digital signal from the fixing control unit 63.
In step S26, the fixing control unit 63 sets the signal level (voltage level) between “0” and “1” from the communication port 64 to the main control unit 1 at a predetermined interval (for example, 50 ms). Output of an inverted signal (corresponding to a level change signal) that changes between the two is started. Here, the fixing control unit 63 when executing the output process corresponds to an abnormality signal output unit.
After that, the fixing control unit 63 stops the output of the inversion signal when the main power source of the multi-function device X is turned off or when a predetermined time set in advance elapses.

(Main control unit 1 side: steps S6 to S7)
Next, returning to FIG. 2A, the processing after step S6 executed by the main control unit 1 will be described.
In step S6, the main control unit 1 switches the communication mode with the fixing control unit 63 from the serial communication mode to the input port mode. That is, in the multi-function device X, the communication port 11 is also used for signal transmission with the fixing control 63 in the serial communication mode and the input port mode. For example, the communication port 11 executes asynchronous serial communication processing or synchronous serial communication processing for receiving serial communication with the communication port 64 of the fixing control unit 63 in the serial communication mode. However, by switching to the input port mode by the main control unit 1, those serial communication processes are stopped, and an input port that simply inputs a digital signal input to the communication port 11 to the main control unit 1. It functions as.
In step S7, the main control unit 1 determines whether or not the inversion signal from the fixing control unit 63 is input to the communication port 11 every predetermined time (for example, 20 ms). To do. Here, the main control unit 1 when executing such processing corresponds to a level change signal detecting means.
If it is determined that the inverted signal is input (Yes in S7), the process proceeds to step S8. In this case, since the inversion signal is input from the fixing control unit 63, it can be determined that the power cord 92 is connected and the fixing control unit 63 is driven.

(Main control unit 1 side: steps S8 to S9)
Therefore, in step S8, the main control unit 1 causes the operation display unit 2 to display that an abnormality has occurred in the serial communication with the fixing control unit 63. The main control unit 1 may notify a predetermined management server or the like via a communication network (not shown) that an abnormality has occurred in serial communication with the fixing control unit 63. Good. Here, the main control unit 1 when executing the notification processing corresponds to communication abnormality notification means.
Subsequently, in step S9, the main control unit 1 stops driving of the fixing device 6 by forcibly cutting off the power supplied from the power cord 92 to the fixing device 6 by the cutoff circuit 8. Let As a result, even if there is an abnormality in serial communication due to an abnormality occurring in the fixing control unit 63 itself, abnormal heating of the heater 62 in the fixing device 6 is prevented and safety is improved. Can be secured.

(Main control unit 1 side: steps S10 to S11)
On the other hand, when the inverted signal has not been input after a predetermined time has elapsed (No side of S7), the main control unit 1 proceeds to step S10. In this case, since the inversion signal is not input to the communication port 11, the fixing control unit 63 may not be driven, and the cause is that the power cord 92 is connected to an outlet of a commercial AC power source. There may be no.
Therefore, in step S10, the main control unit 1 causes the operation display unit 2 to display predetermined information for prompting confirmation of connection of the power cord 92. For example, the predetermined information may be text information “Please check whether the power cord for the fixing device is connected to an outlet”. Here, the main control unit 1 when executing such display processing corresponds to a confirmation display means.
Accordingly, the user can recognize that the power cord 92 may not be connected by referring to the operation display unit 2, and therefore, when the power cord 92 is not actually connected. By connecting the power cord 92 to an outlet, it becomes possible to drive the fixing control unit 63 at an early stage so that the multifunction device X can operate normally.
Thereafter, in step S11, the main control unit 1 waits for a user to turn off / on a main power switch (not shown) of the multifunction device X (No side of S11). When the main power switch (not shown) is turned off / on (Yes in S11), the process returns to Step S1. Of course, if the main control unit 1 is configured to always start the communication control process from step S1 when the power is turned on, the process of step S11 can be omitted. Note that the main power switch OFF / ON operation in step S11 is performed to restart the main control unit 1, and is not necessarily limited to the main power switch OFF / ON operation. The process may be returned to step S1 according to a user operation or the like for canceling an error for the unit 2.

As described above, in the multifunction machine X, the main control unit 1 and the fixing control unit 63 execute the communication control process, thereby using the existing hardware configuration such as the communication ports 11 and 63. , It is determined whether or not there is a possibility that the serial communication is abnormal due to the fact that the power cord 92 is not connected to a commercial AC power supply, and if this is the case, the user is notified of this possibility. A configuration that can be performed is realized.
Therefore, it is not necessary to separately provide a hardware configuration for detecting that the power cord 92 is not connected, and the configuration can be simplified and the cost can be suppressed as compared with the Patent Document 1. Of course, if there is an abnormality in the serial communication because the power cord 92 is not connected to a commercial AC power source, the connection confirmation of the power cord 92 is confirmed to the user by the display on the operation display unit 2. Therefore, when the power cord 92 is not actually connected, the abnormal state of the serial communication can be recovered at an early stage, and the operating efficiency of the multifunction device X can be prevented from being lowered.

X: MFP (an example of an image forming apparatus)
1: Main control unit (an example of first control means)
11: Communication port 2: Operation display section (an example of predetermined display means)
3: Image reading unit 4: Image processing unit 5: Image forming unit 6: Fixing device 61: Fixing roller 62: Heater 63: Fixing control unit (an example of a second control unit)
64: Communication port 7: Power supply device 8: Cut-off circuit 91: Power cord (an example of a first power cord)
92: Power cord (an example of a second power cord)

Claims (4)

With respect to the first control means and the second control means for performing serial communication in accordance with a predetermined communication protocol via the mutually provided communication ports, the first control means and the second control means A control comprising a first power cord and a second power cord connected to a commercial AC power source for supplying power individually, wherein the second control means is transmitted from the first control means. An image forming apparatus that controls a predetermined device to be controlled based on a signal,
The first control means transmits a periodic signal at a predetermined interval to the second control means by the serial communication, and after a predetermined number of times of transmission of the periodic signal, or a preset predetermined period After the elapse of time, on the condition that the response signal from the second control means is not normally received by the serial communication, a level change signal whose signal level changes at a predetermined interval is provided at the communication port of the first control means. A level change signal detecting means for detecting whether or not an input is made, and a default for prompting confirmation of the second power cord when the input of the level change signal is not detected by the level change signal detecting means Confirmation display means for displaying the information on the predetermined display means,
A response signal transmitting means for transmitting the response signal to the first control means by the serial communication in response to reception of the periodic signal transmitted from the first control means; The level change signal is output from the communication port of the second control means on condition that the regular signal from the first control means is not normally received by the serial communication within a preset period. An image forming apparatus comprising an abnormality signal output unit.   The first control means further comprises communication abnormality notifying means for notifying that there is a communication abnormality in the serial communication when the input of the level change signal is detected by the level change signal detecting means. Item 2. The image forming apparatus according to Item 1.   The image forming apparatus according to claim 1, wherein the predetermined information is information that prompts confirmation of connection between the second power cord and a commercial AC power source.   The image forming apparatus according to claim 1, wherein the predetermined control target device is a fixing device.

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