JP2007185962A - Image forming apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To solve the problem that printing cannot be continued by selecting the other paper feeding tray in a situation where an image forming apparatus is immediately turned in an off-line state and is disable to communicate with an external host apparatus if no printing paper is present in a paper feeding tray selected to feed the paper, and hence the image forming apparatus is not returned until the printing sheets of paper are replenished in the paper feeding tray. <P>SOLUTION: The image forming apparatus comprises: an I/F transmission and reception processing part 2 for carrying out the transmission and reception of data with the host apparatus; a plurality of paper feeding trays 67 and 68; an analyzing/editing processing part 3 for analyzing the received data and outputting printing starting information SELI which determines the paper feeding tray to feed the printing sheets of paper when printing among the plurality of paper feeding trays; a sensor part for detecting whether or not the printing sheets of paper are stored; and a control part 16. In the case where the printing sheets of paper are not present in the paper feeding tray determined by the printing starting information SELI on the basis of the detected result of the sensor part and the printing starting information SELI, the transmission and reception of data by the I/F transmission reception processing part 2 is stopped. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an image forming apparatus such as an electrophotographic printer, and more particularly to an image forming apparatus in which operation restrictions are provided according to the conditions of a paper feed tray for storing printing paper and each unit.

Conventionally, as an apparatus of this type, for example, when at least one of transfer sheets stored in a plurality of cassettes provided in a paper feed cassette runs out of paper, the paper feed is interrupted or a notification of no paper is issued. There was an image forming apparatus (see, for example, Patent Document 1).
Japanese Utility Model Publication No. 9-000368 (page 3, FIG. 1)

  In the conventional image forming apparatus as described above, when this is controlled by a host device such as a host computer, the image forming apparatus functions when it detects a paper out condition on at least one of the transfer sheets stored in parallel. Is stopped, and thereafter, the command from the host device is not accepted until the lost paper is replenished.

  In such a case, for example, when the image forming apparatus is configured to execute printing on the printing paper stored in the selected paper storage unit, the stage in which the paper storage unit out of the printing paper is detected is detected. Thus, there is a problem that it is impossible to select another paper storage unit that still has print paper, and printing must be interrupted until the paper storage unit that has run out of paper is replenished with paper.

  In addition to the other purposes described below, the present invention is also capable of detecting the presence of other printing paper when a paper feeding tray without printing paper is detected from among a plurality of paper feeding trays each storing printing paper. An object is to provide an image forming apparatus that can select a paper feed tray to be printed and continue printing.

An image forming apparatus according to the present invention includes:
Transmission / reception processing means for performing transmission / reception of data with the host device, print medium storage means capable of storing a print medium, supplying the print medium, and whether the print medium is stored in the print medium storage means And a control unit that enables transmission / reception of the data by the transmission / reception processing unit even when the detection result of the print medium detection unit is no print medium when the power is turned on. It is characterized by that.

The image forming apparatus according to the reference example is
Transmission / reception processing means for performing transmission / reception of data with the host device, error detection means for detecting an error situation of a predetermined unit, second mode selection means for selecting a third mode and a fourth mode, Control means for controlling the operation of the transmission / reception processing means based on the selection result by the mode selection means of 2 and the detection result of the error detection means,
When the control means is in the third mode, the transmission / reception processing means stops transmission / reception of the data when an error is detected by the error detection means, and in the fourth mode, the transmission / reception processing means The transmission / reception is controlled so as to always continue transmission / reception of the data.

An image forming apparatus according to another reference example is
Transmission / reception processing means for performing transmission / reception of data to / from a host device, a plurality of print medium storage means each capable of storing a print medium, each detachably mounted at a predetermined mounting position, and the plurality of print medium storage Storage means detecting means for individually detecting whether or not the means is mounted, third mode selecting means for selecting the fifth mode and the sixth mode, and a selection result by the third mode selecting means And control means for controlling the operation of the transmission / reception processing means based on the detection result of the storage means detection means,
When the control unit is in the fifth mode, the control unit determines that all the print medium storage units are mounted regardless of the detection result of the storage unit detection unit, and performs control. In the case of mode 6, control is performed based on the detection result by the storage means detection means.

An image forming apparatus according to another reference example is
A counter that counts the number of operations of the predetermined unit, an error detection unit that detects an error condition of the predetermined unit, a fourth mode selection unit that selects the seventh mode and the eighth mode,
Monitoring control means for monitoring the selection result by the fourth mode selection means and the detection result of the sensor and controlling at least the counter;
The supervisory control means stops counting up by the counter in the seventh mode, and starts counting up by the counter in the eighth mode.

  According to the present invention, when there is no print medium in the print medium storage means designated to supply the print medium when the power is turned on, signal transmission / reception is not immediately stopped. By switching to the means, printing can be executed.

  According to the reference example, even if there is an error in a predetermined part of the apparatus, it is possible to select a mode that enables transmission / reception of signals. Therefore, it is possible to increase work efficiency during manufacturing or maintenance of the apparatus.

  Furthermore, according to another reference example, when the manufactured device is shipped, the built-in counter is not reset individually, and the error priority setting location can be corrected in a lump, thereby preventing work mistakes and work efficiency. You can plan up.

  Before explaining the present invention, the technical background of the present invention will be further described.

  FIG. 1 is a block diagram showing a main configuration of a signal processing system of an image forming apparatus 51 for explaining the technical background in which the present invention is implemented.

  In the figure, the image forming apparatus 51 is roughly divided into the LED head 33 using print language data PRND sent from a host computer 40 as a host apparatus such as a workstation, a personal computer, or a user-specific print system. Is controlled by the controller unit 1 for converting to bitmap print data corresponding to the dot pattern image formed by the engine unit, the engine unit 21 for controlling the print image data to be printed on the printing paper, and the engine unit 21. And a mechanical unit 30 that actually executes printing on printing paper.

  In the controller unit 1, the I / F transmission / reception processing unit 2 receives the print language data PRND from the host computer 40, which is a host device, and stores it in the transmission / reception buffer 7 a (FIG. 9) of the RAM (random-access memory) unit 7. At the same time, transmission data such as an error message and status information, which will be described later, stored in the transmission / reception buffer 7a is transmitted to the host computer 40. That is, the I / F transmission / reception processing unit 2 is a transmission / reception processing unit that performs transmission / reception of data with a host device. In addition to the transmission / reception buffer, the RAM unit 7 includes a font cache buffer that temporarily stores font information, a page information memory that stores page information, a raster buffer that temporarily stores raster data, and the like.

  The analysis / edit processing unit 3 acquires data from the transmission / reception buffer 7a, analyzes the data, and if this data is print data, further edits the data. The expansion processing unit 4 executes creation of a print image pattern serving as raster data and compression / decompression of the data, and transmits the processed data to a predetermined transmission destination.

  The printer alarm status control unit 6 serving as a control unit directly or indirectly performs I / F transmission / reception processing on alarms and status information based on sensor information from the engine unit 21 input via the engine I / F control unit 5. Output to the unit 2 and the operator panel processing unit 8, and instructs to execute and stop the operations of the I / F transmission / reception processing unit 2 and the analysis / edit processing unit 3. The engine I / F control unit 5 is an interface of the controller unit 1 that performs input / output processing of various data such as print data and sensor information with the monitoring control unit 22 of the engine unit 21.

  The operator panel processing unit 8 processes data input / output between the display unit 20a and an operator panel 20 provided with an operation input unit 20b such as a selection key, and the selection data input from the operator panel 20 is described later. The status information input from the printer alarm status control unit 6 is output to the operator panel 20 and displayed on the menu processing unit 9 and initialization processing unit 10. The menu processing unit 9 processes menu selection information such as initial designation of the paper feed tray obtained by the selection key operation by the operator and outputs the processed menu selection information to the nonvolatile memory processing unit 11. The initialization processing unit 10 processes mode switching information at the time of a maintenance operation described later and outputs the processed mode switching information to the nonvolatile memory processing unit 11.

  In the engine unit 21, the monitoring control unit 22 manages each control unit that controls and monitors the mechanical unit 30 based on print data and various instruction signals input from the controller unit 1, and the entire operation is executed smoothly. To be managed. The LED head control unit 25 controls the operation of the LED head 33 of the mechanical unit 30, and the operation is managed by the monitoring control unit 22 together with a control unit of each unit related to printing such as a paper roller / motor (not shown). The sensor control unit 23 includes various sensors 31 disposed in the mechanical unit, that is, a sheet sensor that checks whether or not there is a sheet in the sheet feeding tray, a tray sensor that checks whether or not the tray is mounted, A cover sensor for detecting whether or not the maintenance cover is closed, a jam sensor for detecting whether or not a paper jam has occurred, a drum cartridge mounting sensor, and the like are monitored. Accordingly, the various sensors 31, the sensor control unit 23, and the monitoring control unit 22 correspond to a print medium detection unit, an error detection unit, or a storage unit detection unit.

  The option tray control unit 24 detects and controls the option tray 32 when it is installed in the mechanical unit 30, and the heater control unit 26 is not shown in the drawing disposed in the printing paper conveyance path of the mechanical unit 30. The heater 34 of the fixing device is controlled. Further, as will be described later, the counter control unit 27 controls the count value of the EEPROM 35 that stores the count values of various counters provided in the mechanical unit 30.

  In the image forming apparatus 51 having the above configuration, the operation of the portion particularly related to the present application will be described below with reference to the time chart of FIG.

  Of the sensor signals detected by the sensor control unit 23, the monitoring control unit 22 of the engine unit 21, for example, has emptied the printing paper stacked and stored in the paper feed tray by the paper supply signal PEAL from the paper sensor. When the notification is received, a paper alarm PAAL is constantly notified to the controller unit 1. The notified paper alarm PAAL is collectively managed by the printer alarm status control unit 6 together with the alarm and status on the controller unit 1 side, and is notified to the host computer 40 at a predetermined timing which will be described later, and the operator panel processing unit. 8 on the operator panel 20.

(During normal operation)
The time chart of FIG. 2 shows the state of each part when the image forming apparatus 51 is powered on.

  As shown in the time chart, at time t1 when the image forming apparatus 51 is turned on, the printing paper is placed in the paper feed tray selected by the menu setting by the menu processing unit 9 or the command from the host computer 40. If not, the printer alarm status control unit 6 immediately confirms this by the paper alarm PAAL sent from the engine unit 21 and stops the operations of the I / F transmission / reception processing unit 2 and the analysis / editing processing unit 3 to enter an offline state. In addition, the host computer 40 is notified of the status by command reply to notify the offline state, and the display unit 20a of the operator panel 20 indicates that there is no paper and the offline state is disabled. Display an alarm message to inform you.

  Also, there is paper when the power is turned on at time t1, and there is no paper in the paper feed tray by the subsequent JOB printing, but the printing of the JOB printing page is completed and there is no plan to immediately print the next JOB. Even in the suspended state, “no paper” is detected, and the image forming apparatus 51 enters an offline state.

  As described above, when there is no printing paper in the selected paper feed tray, the image forming unit 51 immediately goes offline as in the paper jam state. As a result, except for special cases, in general, the printer continues to be offline until the paper is replenished and the “paper out” status is resolved. The command analysis (editing process) is impossible (stopped).

  In such a case, the I / F transmission / reception processing unit 2 takes in the transmission / reception buffer 7a, but does not proceed to the analysis processing of the next step. Therefore, the host computer 40 cannot transmit information to the image forming apparatus 51 using commands for various requests and print data transmission.

  Therefore, in the image forming apparatus 51 described above, when the paper feed tray designated at the time of power-on is in the “no paper” state during “normal operation”, the host computer or the user can be notified of this no paper state. However, since it is in an offline state, it does not accept external commands and stops all operations such as switching to another paper feed tray. This stop state has a problem that it continues until a predetermined paper feed tray is replenished with paper and comes back online.

  Also, when the power is turned on, there is paper and the paper in the paper feed tray is exhausted by the subsequent JOB printing. However, in the print interruption state where the JOB printing page is completed and there is no plan to immediately print the next JOB. However, since it is in an offline state at that time, a similar operation stop state occurs.

(In the production line at the factory)
On the other hand, at the time of shipment inspection on the line of the factory that manufactures the image forming apparatus 51, not only the standard use state of the apparatus but also shipment setting and operation check of an optional tray based on commands from the host computer 40 and instructions from the operator panel 20 May also be performed. At that time, all the target devices are prepared for installation to keep the online state and work.

  Also, at the time of shipment setting work, it is necessary to normally mount consumables such as paper, an ID (image drum), a toner cartridge, a paper feed tray, and an optional tray 32 in the image forming apparatus 51. This is because when the monitoring control unit 22 confirms an error state notified by each sensor signal detected by the sensor control unit 23, an alarm is notified to the printer alarm status control unit 6 of the controller unit 1 at that time. This is because it becomes impossible to control the image forming apparatus 51 because the forming apparatus 51 is in an offline state.

  Furthermore, when these factory inspection operations are completed and the product is shipped, the operation to cancel “initial setting of each counter” and “change of some error priorities” described later is performed on the host computer. This is done individually according to commands from 40 and commands from the operator panel 20.

  Therefore, in the above-described image forming apparatus 51, in order to prevent the apparatus from going off-line as described above when performing the shipment setting and operation check of the option tray or the like in the “production line” at the factory, It is necessary to normally install consumables such as an ID (image drum) and a toner cartridge, and equipment such as a paper feed tray cassette and an optional tray. Furthermore, in the manufacturing process, depending on the procedure and various circumstances, the temporary operation check is performed in that state before the installation of some parts such as the upper cover, the paper feed tray, and the printing-related sensor is incomplete. There may be cases where the need arises, but in that case, in order to prevent the offline state, for example, in the sensor for detecting the paper feed tray, the state is fixed to the “installed” side, Work on the mechanical mechanism in the manufacturing process was necessary.

  In addition, when maintenance work at the user site or field failure investigation, if there is a known alarm due to damage of the equipment mentioned above, or even if the detailed cause is unknown, it will be offline, so There was a problem that the command could not be sent for recovery or investigation.

  Furthermore, before the final confirmation immediately before shipment, it is necessary to perform the work of canceling the above-mentioned “initial setting of each counter” and “change of some error priorities”. Each item must be performed independently. For this reason, when there is a need for improved accuracy and multiple functions, such as color printers and high-function printers, counters on the device mechanism increase and printer error types increase. Work items for priority change and cancellation increase, and work procedures vary greatly depending on the model.

  An object of the present invention is to solve the above-mentioned problems in the technical background and the above-described problems of the prior art.

Embodiment 1 FIG.
FIG. 9 is a block diagram showing the main configuration of the signal processing system of the image forming apparatus 61 according to the first embodiment of the present invention. From the image forming apparatus 51 shown in FIG. 1 for explaining the technical background. The configuration of the portion according to the present embodiment is selected and shown.

  This image forming apparatus 61 solves the above-mentioned problems during “normal operation”. The main difference from the image forming apparatus 51 of FIG. 1 is that the printer alarm status control unit 65 (6 in FIG. 1). ) And the contents of the operation input unit of the operator panel 20. Therefore, in the image forming apparatus 61, the same reference numerals are given to the portions common to the image forming apparatus 51 of FIG. 1 described above, or the description is omitted by omitting the drawings, and different points will be mainly described.

  In the figure, the operation input unit 62 of the operator panel 20 is newly provided with an operation mode switching unit 62a (first mode selection means) for switching the operation mode. The operation mode switching unit 62a selects the normal mode performed in the image forming apparatus 51 of FIG. 1 as described above and the extended mode performed by the image forming apparatus 61 according to the present embodiment as will be described later.

  The selected operation mode information SMOI is stored in the nonvolatile memory 11 via the menu processing unit 63 and is read by the printer alarm status control unit 65. The analysis / editing processing unit 3 acquires and analyzes data from the transmission / reception buffer 7a, and in the case of paper feed tray selection information or print data for executing printing, a predetermined value is sent to the engine unit 21 in the end. To the engine I / F control unit 5 through the processing circuit.

  The printer alarm status control unit 65 receives from the analysis / editing processing unit 3 (designation information of a paper feed tray to be fed when executing printing of edited print data) and print activation information SELI instructing execution of printing. And a paper alarm PAAL for notifying that the print sheets stacked and stored in the first paper feed tray 67 or the second paper feed tray 68 are empty from the engine I / F control unit 5. Then, “online / offline” setting processing and “paper out status” notification processing described later are executed. The first paper feed tray 67 and the second paper feed tray 68 correspond to print medium storage means for storing print paper as a print medium. The print activation information SELI corresponds to storage unit determination information in the sense of determining a print medium storage unit that supplies printing paper at the time of printing, and the analysis / edit processing unit 3 corresponds to a data analysis unit that outputs the storage unit determination information. .

  Based on the print data input from the controller unit 1, the engine unit 21 performs the first paper feed tray 67 and the second paper feed tray 68 disposed in the mechanical unit 30 by the monitoring control unit 22 (FIG. 1). Among them, the paper feed tray for performing paper feed at the time of printing is selected, and the sheets stacked and stored in each of the paper feed trays 67 and 68 are individually monitored, and the empty paper feed tray can be identified. A paper alarm PAAL is output to the controller unit 1.

  In the above configuration, the operation of the image forming apparatus 61 will be described below with reference to the flowchart shown in FIG.

  When the image forming apparatus 61 is turned on and this program is started, the apparatus first selects one of the first and second paper feed trays 67 and 68 for the paper feed tray designated by the menu or the like. It is confirmed whether or not there is printing paper (step 1). Here, while there is printing paper in the paper feed tray, it is assumed that the printing operation can be executed, and the normal printing operation is executed (step 12). Accordingly, in the normal state where the paper feed tray is filled with printing paper, the printing operation is always executed in step 12. A detailed description of the normal printing operation here is omitted.

  On the other hand, when the paper feed tray for performing paper feeding is in the no paper state or in the no paper state, the operation mode information SMOI set by the operation mode switching unit 62a of the operator panel 20 is confirmed. It is determined whether the normal mode or the extended mode is set (step 2). When the normal mode is set, immediately at this stage, the image forming apparatus 61 is set in an off-line state (step 3) as in the case of the image forming apparatus 51 (FIG. 1), and the paper feed tray is An alarm message is sent to notify that there is no paper and that the device is in an offline state where it cannot operate (step 4). A series of operations from Step 1 to Step 4 are executed immediately after time t1 when the power is turned on in the time chart shown in FIG.

  On the other hand, if it is confirmed in step 2 that the expansion mode is set, the apparatus notifies the warning indicating that the paper feed tray is out of paper, although the online state is continuing (step 5). . Since online is continued, it waits for data reception from the host computer 40 (step 6), and determines whether the received data is a setting command for setting each state of the apparatus or print data (step 7). If it is a setting command, for example, a designated setting value change such as a change of a paper feed tray to be fed is performed (step 8), and the process returns to step 6 again to enter a data reception waiting state.

  On the other hand, if the received data is print data, data analysis and edit data creation are executed (step 9), and it is checked whether or not the print activation information SELI has been generated (step 10). When the occurrence is confirmed here, it is further checked whether or not the paper feed tray in the no-paper state is the paper feed tray selected to perform paper feed (step 11). At this point, the process reaches step 3, the apparatus is set in an off-line state, the alarm message is notified (step 4), and the process returns to step 1 to repeat the same operation.

  As described above, the print activation information SELI is defined as information specifying a paper feed tray to be fed when printing edited print data and information instructing execution of printing. Since the designated paper feed tray is the initial setting or the paper feed tray selected in step 8, the print activation information SELI includes only information instructing execution of printing, and printing instructing execution of this printing is performed. The configuration may be such that when the activation information SELI is received, the paper feed tray selected at this time is determined as a paper feed tray to be fed when printing is performed. Accordingly, in this case, the storage unit determination information corresponds to the paper feed tray selection information and the print activation information SELI instructing execution of printing.

  On the other hand, if the generation of the print activation information SELI is not confirmed in the check in step 10, the process returns to step 6 again to wait for data reception, and further in the check in step 11, the paper-free paper feed tray is instructed to perform the paper feeding operation. If not, return to Step 1. Therefore, at this time, the apparatus reaches step 12 and can perform a normal printing operation.

  In step 3 and 4, if an alarm is generated due to the apparatus being in an offline state, the same operation is repeated after returning to step 1, but when paper is supplied to the paper supply tray without paper here. In step 12, the apparatus is released from the off-line state and alarm notification, and is ready for normal printing operations.

  Next, the time chart of FIG. 3 showing an operation example of the image forming apparatus 61 will be described. However, at this time, the image forming apparatus 61 is set to the extended mode by the operation mode switching unit 62a of the operator panel 20.

  In the figure, at time t3 when the image forming apparatus 61 is turned on, there is no paper in the paper feed tray designated by the paper alarm PAAL, for example, the first paper feed tray 67, for example. (Operation of step 1), the apparatus is in an online state, but notifies the host computer 40 and the operator panel 20 of a warning indicating that the designated paper feed tray is out of paper (see FIG. Operation of step 5).

  Thereafter, the print activation information SELI is generated at time t4, and it is determined that the currently selected paper feed tray is the first paper feed tray 67 in the no-paper state (operations in steps 10 and 11). Is in an offline state (operation in step 3), and an alarm is notified to notify that the paper feed tray is out of paper and that the apparatus is in an offline state incapable of operation. After this time t4, the apparatus goes offline and cannot operate based on the external command. However, at time t5 when paper is supplied to the first paper feed tray 67, the offline state and alarm notification are canceled. Normal operation is performed (operations in steps 1 and 12). Since the image forming apparatus 61 remains online until time t4, the normal operation such as execution of printing can be performed again by returning to the normal operation by changing the selection of the paper feed tray.

  As described above, according to the image forming apparatus 61 according to the present embodiment, after receiving print data and analyzing the print data, after a paper feed tray for printing is determined, it is further transferred to the paper feed tray. When there is no paper, notification of an alarm message and offline processing are performed for the first time, and until that time, only a warning message is sent to notify that there is no paper in the online state.

  Therefore, even if no paper is detected, the setting command can be transmitted (received by the printer) during the warning period. If there is no paper in the selected paper feed tray, the warning (status information) notification Printing is possible by switching the paper feed destination from the host computer to another paper feed tray. When the mode is set to the normal mode, even if it is desired to select a paper feed tray with paper and perform printing, printing cannot be performed unless paper is replenished to the paper feed tray in the no paper state.

  Furthermore, the above-mentioned “when there is paper when the power is turned on, and the paper in the paper feed tray is exhausted by the subsequent JOB printing, but the JOB printing page has just been completed and there is no plan to print the next JOB immediately. It is possible to control similarly in the problem of "

  Further, since the normal mode and the extended mode can be selected by the operation mode switching unit 62a provided on the operator panel 20, even a user who encourages the specification of “shut down the system immediately when no paper occurs” is recommended. Can respond.

Embodiment 2. FIG.
FIG. 10 is a block diagram showing the main configuration of the signal processing system of the image forming apparatus 71 according to the second embodiment of the present invention. From the image forming apparatus 51 shown in FIG. 1 for explaining the technical background. The configuration of the portion according to the present embodiment is selected and shown.

  This image forming apparatus 71 mainly solves the problems in the “production line” in the factory described above. The main difference from the image forming apparatus 71 of the first embodiment shown in FIG. The control content of the alarm status control unit 73 (65 in FIG. 9) and the content of the input unit of the operator panel 20 are shown. Therefore, in the image forming apparatus 71 of the present embodiment, parts common to the image forming apparatus of FIG. 1 or FIG. Explain mainly.

  In the figure, the operation input unit 62 of the operator panel 20 is newly provided with a use mode switching unit 62b (second mode selection means) for switching the use mode. The use mode switching unit 62b selects a normal use mode set for use by a general user and an inspection use mode set at the time of factory shipment inspection or maintenance, as will be described later.

  The use mode information UMOI selected here is stored in the nonvolatile memory 11 via the initialization processing unit 72 and is read by the printer alarm status control unit 73.

  The engine unit 21 generates a paper jam when the tray is not installed, when the cover is opened, based on all the sensor information detected by the paper alarm PAAL (FIG. 9) and the sensor control unit 23 (FIG. 1). At this time, the controller alarm 1 is notified to the controller unit 1 including various alarm information generated in response to the drum card ridge not being installed. The printer alarm status control unit 73 reads the above-described use mode information UMOI and inputs this sensor alarm SEAL to execute “always online” mode control processing described later.

  In the above configuration, the operation of the image forming apparatus 71 will be described below with reference to the flowchart shown in FIG.

  When the image forming apparatus 71 is turned on and this program starts, the apparatus first monitors the sensor alarm SEAL to check whether or not a sensor alarm has been generated by each sensor (step 20). If no error has occurred, it is assumed that a command can be input online and a normal printing operation is possible (step 33). Detailed description thereof will be omitted here.

  On the other hand, when an error is detected by one of the sensors and a sensor alarm is generated, the use mode information UMOI set by the use mode switching unit 62b of the operator panel 20 is confirmed and set to either the normal use mode or the inspection use mode. It is determined whether it has been performed (step 21).

  When the inspection use mode is set here, the online state of the image forming apparatus 71 is continued regardless of the sensor alarm SEAL (step 22), and an error is detected somewhere in the apparatus by the sensor. Although it is in a state, the device notifies a warning message indicating that it is set online (step 23). Then, it waits for data reception from the host computer 40 (step 24), and further waits for a setting command (step 25), and when the setting command is received, the command setting is executed (step 26). Thereafter, the process returns to step 20.

  Therefore, when the use mode switching unit 62b (FIG. 10) is set to the inspection use mode, even if any of the sensors detects an error, the apparatus can remain online and receive the setting command. It is in a state.

  On the other hand, if it is confirmed in step 21 that the normal use mode is set, the contents of the error detected by the sensor are analyzed (step 27), and the apparatus should be taken offline according to the analysis result, or online. Is to be maintained (step 28). If it is determined that the device should be taken offline, the device is set in an offline state (step 29), and an alarm indicating that an error has been detected somewhere and the device is set offline is notified ( Step 30) If it is determined that the device should be online, the device remains online (Step 31) and an error is detected somewhere, but the device is set online. A warning is shown (step 32). When the above series of processing is completed, the process returns to step 20 and the same operation is repeated.

  The series of operations for setting online / offline of the image forming apparatus 61 in the first embodiment corresponds to the operations from step 27 to step 32.

  In the above example, it has been described that the location where an error has occurred is not specified when a warning or alarm is notified. However, the location where the error has occurred can be identified by analyzing the sensor alarm SEAL. You may notify as follows.

  As described above, according to the image forming apparatus 71 of the second embodiment, first, in a factory manufacturing process or a maintenance operation, attachment of predetermined parts such as an upper cover and a paper feed tray of the apparatus is not performed due to various circumstances. Since the online status can be maintained even in the completed status, command settings by sending and receiving commands and the printer status can be acquired, and work can be executed even when components are not completely set, improving work efficiency. Can contribute.

  In addition, even when all of the device parts have been installed and no consumables such as paper, ID (image drum), or toner cartridge are installed, command setting and device status can be acquired by sending and receiving commands. Therefore, it can contribute to the improvement of work efficiency similarly.

  In addition, since the above-described normal use mode and inspection use mode can be selected by the use mode switching unit 62b provided on the operator panel 20, the above-described effects in the inspection use mode can be easily obtained during maintenance and repair work of the apparatus. . Further, this setting can be inherited after the power is turned on again by storing information in the nonvolatile memory.

Embodiment 3 FIG.
FIG. 11 is a block diagram showing the main configuration of the signal processing system of the image forming apparatus 81 according to the third embodiment of the present invention. From the image forming apparatus 51 shown in FIG. 1 for explaining the technical background. The configuration of the portion according to the present embodiment is selected and shown.

  This image forming apparatus 81 solves the problems in the “production line” in the factory described above. The main difference from the image forming apparatus 71 of the second embodiment shown in FIG. The control content of the control unit 83 (73 in FIG. 10) and the content of the input unit of the operator panel 20 are shown. Accordingly, in the image forming apparatus 81 of the present embodiment, parts that are the same as those in the image forming apparatus of FIG. 1 or FIG. Explain mainly.

  In the figure, the operation input section 62 of the operator panel 20 is newly provided with an OT detection mode switching section 62c (third mode selection means) for switching the option tray detection mode. The OT detection mode switching unit 62c selects a normal detection mode that is set for use by a general user and an inspection detection mode that is set at the time of factory shipment inspection or maintenance, as will be described later.

  The OT detection mode information OTSI selected here is stored in the nonvolatile memory 11 via the initialization processing unit 82 and is read by the printer alarm status control unit 83.

  In addition to the sensor alarm SEAL including various alarm information described above, the engine unit 21 includes a plurality of option trays 32 (reference numeral 32 is a first option tray 32a, a second option tray 32b,. The controller unit 1 is notified of the OT mounting information OTAL indicating the individual mounting / non-mounting states of a plurality of option trays. The printer alarm status control unit 83 reads the above-described OT detection mode information OTSI and inputs the OT mounting information OTAL, and executes an “option tray pseudo mounting” mode control process described later.

  In the above configuration, the operation of the image forming apparatus 81 will be described below with reference to the flowchart shown in FIG.

  When the image forming apparatus 81 is turned on and this program starts, the apparatus first confirms the OT detection mode information OTSI set by the OT detection mode switching unit 62c of the operator panel 20, and performs normal detection mode and inspection detection. Which mode is set is discriminated (step 41).

  When the inspection setting mode is set, the apparatus is set to an “option tray pseudo-mounting” mode in which the image forming apparatus 81 considers all the option trays to be mounted regardless of the OT mounting information OTAL. Regardless of the sensor information, commands related to all option trays are made valid (step 42). Then, it waits for data reception from the host computer 40 (step 43), and further waits for a setting command (step 44), and when the setting command is received, the command setting is executed (step 45).

  Therefore, in this “option tray pseudo-mounting” mode, all option trays that can be mounted as devices are recognized as being mounted in a pseudo manner, and a state in which those command settings can be set is created, and related command transmission is performed. I can do it. For this reason, even when the optional trays are not prepared, the optional trays can be mounted, and the shipping settings and the shipping evaluation without these members can be performed.

  On the other hand, when it is confirmed in step 41 that the normal detection mode is set, the mounting state of each option tray is checked, and the command setting of the received setting command is set only for the option tray that has been checked for mounting. It becomes possible (the operations of steps 46 and 47 correspond).

  As described above, according to the image forming apparatus 81 of the third embodiment, this “option tray pseudo-mounting” is performed even when the optional tray apparatus is not available due to various circumstances in the factory manufacturing process or maintenance work. In the mode, all option trays that can be mounted as a device are set in a pseudo state, so that it is possible to make shipping settings and evaluations related to all the option trays.

  In addition, since the above-described normal detection mode and inspection detection mode can be selected by the OT detection mode switching unit 62c provided on the operator panel 20, the above-described effects in the inspection detection mode can be easily obtained during maintenance and repair work of the apparatus. it can. In addition, this setting can be inherited after the power is turned on again by storing information in the nonvolatile memory.

Embodiment 4 FIG.
FIG. 12 is a block diagram showing the main configuration of the signal processing system of the image forming apparatus 91 according to the third embodiment of the present invention. From the image forming apparatus 51 shown in FIG. 1 for explaining the technical background. The configuration of the portion according to the present embodiment is selected and shown.

  The image forming apparatus 91 solves the problems in the “production line” in the factory described above. The main difference from the image forming apparatus 51 shown in FIG. ) And the contents of the input part of the operator panel 20. Therefore, in the image forming apparatus 91 of the present embodiment, the same reference numerals are given to the parts common to the image forming apparatus of FIG. 1 described above, or the description is omitted by omitting the drawings, and different points are emphasized. explain.

  In the figure, an operation input unit 62 of the operator panel 20 is used to switch between an inspection work state mode set at the time of factory manufacture and a standard operation state mode set at the time of subsequent shipment, as will be described later. An inspection / operation switching unit 62d (fourth mode selection means) is newly provided. The inspection / operation selection information WOSI selected here is stored in the nonvolatile memory 11 via the initialization processing unit 92 and corresponds to the monitoring control means of the engine unit 95 via the engine I / F control unit 5. It is read by the monitoring control unit 96.

  When the inspection / operation selection information WOSI is in the inspection work state mode, the monitoring control unit 96 uses the counter control unit 27 to rotate the number of drums disposed in the mechanical unit 30, the number of pages, and the toner. Control is performed so that the value of the EEPROM 35 that stores the count value of each counter that counts the remaining amount value, the total number of prints, and the like is maintained at zero.

  Furthermore, in the manufacturing work process, in order to strengthen the attachment confirmation and inspection, the priority of the error is set by forcibly setting a non-recoverable error that originally occurs based on the detection of each sensor in a predetermined process. There is something to change. These items that need to be changed are grouped into one group, and in this inspection work state mode, different error priority changes are set for each work item at once.

  With the above configuration, the operation of the image forming apparatus 91 will be described below with reference to the timing chart shown in FIG. 7 and the flowchart shown in FIG.

  The flowchart of FIG. 8 shows a main part manufacturing process when the image forming apparatus 91 is manufactured. When this program is started, the assembly of the apparatus is completed while checking the attachment of each part of the apparatus and the operation for each attachment (steps 51 and 52). At least at this stage, it is assumed that the inspection / operation switching unit 62d of the image forming apparatus 91 is set to the inspection work state mode.

  Next, installation of consumables such as an image drum and a toner cartridge and their operation confirmation are executed (step 53), and then options such as an option tray and a memory card are installed and their operation is confirmed (step 53). Step 54). Then, at the stage where the assembly and operation check of each part is completed, after setting the destination and each default and performing the operation check (step 55), the inspection / operation switching unit 62d is switched to the standard operation state mode (step 56) The process proceeds to the final shipping inspection process (step 57). This shipment inspection process is performed in a normal operation state of the image forming apparatus 91 in which each counter performs a normal count-up operation and the error priority setting is cancelled.

  As shown in the timing chart of FIG. 7, the image forming apparatus 91 is in the inspection work state mode until time t6 when the inspection / operation switching unit 62d is switched to the standard operation state mode in step 56 described above. The counter value of each counter maintains 0 count, and an error priority is set for a predetermined inspection item.

  If there is no function for setting the above-described inspection work state mode, each counter counts up according to the operation of each unit at least in steps 53 and 54 in the flowchart of FIG. 8 (one point in FIG. 7). An error priority must be set for each inspection item. Further, instead of executing setting switching in step 56, as shown by a dotted line in the figure, as a final shipment setting, a process of canceling the error priority set in each process and initial setting of each counter value is performed. Step 57 must be followed by a shipping inspection process.

  As described above, according to the image forming apparatus 91 of the fourth embodiment, since the inspection / operation switching unit 62d for switching between the inspection work state mode and the standard operation state mode is provided, it occurs in each process on the factory line. It is possible to prevent unnecessary counting up for each counter and to set and cancel the error priority set for each item in a batch. In addition, when a plurality of types of image forming apparatuses having different numbers of counters and error priority setting items are processed in the same process, each image forming apparatus has the same mode switching function as the image forming apparatus of the present embodiment. If it is provided, it is possible to avoid complication of work processing, to prevent work mistakes and to improve work efficiency.

FIG. 2 is a block diagram showing a main configuration of a signal processing system of an image forming apparatus 51 for explaining a technical background in which the present invention is made. 6 is a time chart showing the state of each part when the image forming apparatus 51 is powered on. 6 is a time chart for explaining an operation example of the image forming apparatus 61 according to the first embodiment. 6 is a flowchart for explaining an operation flow of the image forming apparatus 61 according to the first embodiment. 6 is a flowchart for explaining an operation flow of the image forming apparatus 71 according to the second embodiment. 10 is a flowchart for explaining an operation flow of the image forming apparatus 81 according to the third embodiment. 10 is a time chart for explaining an operation example of the image forming apparatus 91 according to the fourth embodiment. 10 is a flowchart for explaining an operation flow of the image forming apparatus 91 according to the fourth embodiment. It is a block diagram which shows the principal part structure of the signal processing system of the image forming apparatus 61 of Embodiment 1 by this invention. It is a block diagram which shows the principal part structure of the signal processing system of the image forming apparatus 71 of Embodiment 2 by this invention. It is a block diagram which shows the principal part structure of the signal processing system of the image forming apparatus 81 of Embodiment 3 by this invention. It is a block diagram which shows the principal part structure of the signal processing system of the image forming apparatus 91 of Embodiment 4 by this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 1 Controller part, 2 I / F transmission / reception processing part, 3 Analysis / editing processing part, 4 Unfolding processing part, 5 Engine I / F control part, 6 Printer alarm status control part, 7 RAM part, 7a Transmission / reception buffer, 8 Operator panel Processing unit, 9 menu processing unit, 10 initialization processing unit, 11 nonvolatile memory processing unit, 20 operator panel, 20a display unit, 20b operation input unit, 21 engine unit, 22 monitoring control unit, 23 sensor control unit, 24 options Tray control unit, 25 LED head control unit, 26 heater control unit, 30 mechanical unit, 31 various sensors, 32, 32a, 32b optional tray, 33 LED head, 34 heater, 35 EEPROM, 40 host computer, 51 image forming apparatus , 6 Image forming apparatus, 62 operation input unit, 62a operation mode switching unit, 62b use mode switching unit, 62c OT detection mode switching unit, 62d inspection / operation switching unit, 63 menu processing unit, 65 printer alarm status control unit, 67 Paper feeding tray, 68 Second paper feeding tray, 71 Image forming apparatus, 72 Initialization processing section, 73 Printer alarm status control section, 81 Image forming apparatus, 82 Initialization processing section, 83 Printer alarm status control section, 91 Image formation Device, 92 initialization processing unit, 95 engine unit, 96 monitoring control unit.

Claims (6)

A transmission / reception processing means for performing transmission / reception of data with the host device;
Print medium storage means capable of storing a print medium and supplying the print medium;
Print medium detection means for detecting whether or not the print medium is stored in the print medium storage means;
An image forming apparatus comprising: a control unit that enables transmission / reception of the data by the transmission / reception processing unit even when the detection result of the printing medium detection unit is no print medium when the power is turned on. Having analysis means for analyzing data received by the transmission / reception processing means;
The image forming apparatus according to claim 1, wherein the control unit prohibits the transmission / reception of the data by the transmission / reception processing unit when printing of the data is determined by the analysis unit. A plurality of the print medium storage means;
Analyzing means for analyzing the data received by the transmission / reception processing means,
2. The image according to claim 1, wherein the control unit prohibits the transmission / reception of the data by the transmission / reception processing unit when there is no print medium in the print medium storage unit designated by the data by the analysis unit. Forming equipment. When the power is turned on, the control means is capable of transmitting and receiving the data by the transmission / reception processing means even when the detection result of the print medium detecting means is no print medium when the power is turned on. A second mode for prohibiting transmission / reception of the data by the transmission / reception processing means when the detection result of the printing medium detection means is no print medium;
The image forming apparatus according to claim 1, further comprising a switching unit that switches between the first mode and the second mode.   The said control means enables transmission / reception of the data by the transmission / reception processing means even when there is no print medium in the print medium storage means when printing of the data is completed. Image forming apparatus. Comprising display means for displaying the status of the device;
2. The image forming apparatus according to claim 1, wherein the control unit displays a message to that effect when there is no print medium in the print medium storage unit when the power is turned on.

Images