JP2019043037A - Image forming apparatus - Google Patents

Abstract

To provide an image forming apparatus which suppresses increase in power consumption and performs notification of error in a post-processing device.SOLUTION: An image forming apparatus main body 10 comprises: a display panel 14 for displaying information; switching elements 1-6 for switching supply and interruption of the display panel 14, an image forming part, and a post-processing device 11; and a CPU 103 for controlling power supply according to a stand-by mode or a sleep mode. The post-processing device 11 comprises: a staple unit 15 for performing staple processing; a sheet sensor 112 for detecting that a sheet bundle is inserted while in the sleep mode; an LED 17 for displaying a state of staple processing; and a CPU 114 for controlling the staple unit 15. When abnormality occurs during staple processing while in the sleep mode, the CPU 114 either performs notification by the LED 17 or notifies the CPU 103 of abnormality and performs notification of abnormality with the display panel 14, depending on the abnormality.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an image forming apparatus including a post-processing device having a stapling function for binding a bundle of sheets.

  Among image forming apparatuses such as printers, there is an image forming apparatus provided with a post-processing device that performs a stapling process for bundling and binding sheets on which images have been formed. It has been conventionally known that such a post-processing apparatus has the following two types of functions. One function is a function of performing staple processing by bundling sheets conveyed to the post-processing apparatus after image formation is performed in the image forming apparatus main body. Another function is a manual stapling function that performs a stapling process on the inserted sheet bundle when the user inserts the sheet bundle into a predetermined insertion port of the post-processing apparatus, independently of the printing operation of the image forming apparatus main body. .

  In recent years, various controls have been proposed that achieve both reduction in power consumption and improvement in usability even in an image forming apparatus including a post-processing apparatus having these two functions. For example, Patent Document 1 proposes an image forming apparatus that performs a stapling process on a sheet by a manual operation. In the image forming apparatus proposed in Patent Document 1, the stapling means is moved to the manual stapling position where the sheet bundle is inserted. Thereafter, the image forming apparatus shifts from a standby mode in which image formation is performed to a power saving mode (hereinafter referred to as a sleep mode) in which power consumption of the apparatus is reduced without image formation. When a sheet bundle is inserted into the manual staple insertion slot in the sleep mode, the image forming apparatus remains in the power saving mode, and only the post-processing apparatus that performs the stapling process returns from the sleep mode and executes the stapling process. .

JP 2014-162590 A

  In the image forming apparatus provided with the post-processing device that performs the above-described stapling process, when the sheet bundle is inserted into the manual stapling position of the post-processing device during the sleep mode, the following operation is executed. That is, the image forming apparatus main body maintains the sleep mode in order to reduce power consumption, while the post-processing apparatus only returns from the sleep mode to the standby mode in order to execute the stapling process. Perform manual stapling on the bundle. However, if an error occurs while the post-processing apparatus is executing manual stapling, the following problem occurs. That is, in order to display error information on the display device, it is necessary to return the image forming measure from the sleep mode to the standby mode. However, since the image forming apparatus maintains the sleep mode in order to reduce power consumption, error information cannot be displayed on the display device. As a result, there is a problem that the error notification of the post-processing device cannot be performed and usability is deteriorated.

  The present invention has been made under such circumstances, and an object thereof is to suppress an increase in power consumption and to notify an error of a post-processing device.

  In order to solve the above-described problems, the present invention has the following configuration.

  (1) An image forming unit that forms an image on a sheet, and a post-processing device that performs a stapling process in which a sheet formed by the image forming unit is transported and a bundle of the transported sheets is bound by a stapler. And the image forming unit and the post-processing device can be switched to a standby mode in which image formation is possible, or a power-saving sleep mode in which image formation is not performed, and the image forming device Includes a first display unit for displaying information, a switching unit for switching power supply to or shutoff from the image forming unit, the first display unit, and the post-processing device, and the standby mode or the sleep mode. And a first control unit that controls power supply to the image forming unit, the first display unit, and the post-processing device by the switching unit. The processing device includes: a stapling unit that performs the stapling process; a detection unit that detects that a paper bundle is inserted into an insertion port into which the paper bundle to be stapled in the sleep mode is inserted; and a status of the stapling process. Second display means for displaying, and second control means for controlling the stapling means for performing the stapling processing of a bundle of sheets, wherein the second control means is configured to perform the stapling in the sleep mode. If an abnormality occurs when processing is performed, according to the abnormality, notification by the second display unit or notification of the abnormality to the first control unit is performed, and the first display unit An image forming apparatus that reports the abnormality.

  According to the present invention, it is possible to suppress an increase in power consumption and perform error notification of the post-processing device.

External view of image forming apparatus including post-processing apparatus according to first and second embodiments FIG. 3 is a block diagram illustrating the configuration of a post-processing apparatus and an image forming apparatus main body according to the first and second embodiments. The figure which shows the response | compatibility of the state of each apparatus of the image forming apparatus main body of Example 1, 2 and a post-processing apparatus, and an operation mode. 7 is a flowchart illustrating a control sequence for manual stapling processing according to the first exemplary embodiment. 7 is a flowchart illustrating a control sequence for manual stapling processing according to the first exemplary embodiment. FIG. 3 is a block diagram illustrating the configuration of a post-processing apparatus and an image forming apparatus main body according to the first and second embodiments. 7 is a flowchart showing a control sequence for manual stapling processing according to the second embodiment. 7 is a flowchart showing a control sequence for manual stapling processing according to the second embodiment.

  Embodiments of the present invention will be described below in detail with reference to the drawings.

[Image forming apparatus and post-processing apparatus]
FIG. 1 is an external view of the image forming apparatus 100 according to the first exemplary embodiment when viewed obliquely from the front. The image forming apparatus 100 includes an image forming apparatus main body 10 that forms an image on a sheet that is a recording medium, and a post-processing device 11 that performs a binding process using a stapler on the sheet on which the image has been formed. The image forming apparatus main body 10 conveys the paper in the paper feed cassette 12 to an image forming unit that performs image formation, and performs image formation. The image forming apparatus main body 10 includes an operation switch (also referred to as an operation SW) for instructing data input and processing and a display panel 14 having a display for displaying information, and a main power switch that is a power switch of the image forming apparatus 100. (Also referred to as a power supply SW) 13 is provided. The image forming apparatus main body 10 forms an image on a sheet fed from a sheet feeding cassette 12 loaded with sheets. Thereafter, the sheet on which the image has been formed is discharged from the discharge port 21 or conveyed to the post-processing device 11 when performing stapling.

  The post-processing device 11 has two discharge trays 18 and 19, and the sheets discharged from the discharge port 21 of the image forming apparatus main body 10 are stacked on the discharge tray 18. Further, the post-processing device 11 receives the paper on which the image is formed from the image forming apparatus main body 10 and discharges the paper as it is to the discharge tray 19 or places it on a paper aligning unit 119 (see FIG. 2) described later. In the post-processing device 11, when a predetermined number of sheets are placed on the sheet aligning unit 119, the sheet aligning unit 119 performs a process of aligning the ends of the loaded sheets. Thereafter, the sheet bundle of the sheet aligning unit 119 is bound by a stapling process by the stapler unit 15 which is a stapling unit movable in the direction of the arrow in the drawing. Then, the bound sheet bundle is discharged to the discharge tray 19 through the discharge port 22. Further, in the post-processing device 11, the sheet bundle insertion port 16 for inserting the sheet bundle and the sheet bundle are inserted into the sheet bundle insertion port 16 so that the manual forming process can be performed even when the image forming apparatus 100 is in the sleep mode. An LED 17 is provided that turns on when it is detected. Further, the post-processing device 11 is provided with a front door 20, and when performing maintenance work such as adding a needle to the stapler 115 (see FIG. 2) provided in the stapler unit 15, the front door 20 is opened and the stapler is opened. 115 needle replacements are performed.

  In this embodiment, when the stapler unit 15 moves in the direction of the arrow in the drawing, the sheet bundle discharged from the image forming apparatus main body 10 and the sheet bundle inserted by the user from the sheet bundle insertion port 16 are both the same. A configuration in which staple processing is performed by the stapler unit 15 is shown. For example, two stapler units may be provided, one of which performs a stapling process for binding a sheet bundle discharged from the image forming apparatus main body 10 and the other for binding a sheet bundle inserted from the sheet bundle insertion port 16. Hereinafter, the process in which the stapler unit 15 binds the sheet bundle inserted from the sheet bundle insertion port 16 is referred to as manual stapling process.

[Configuration of image forming apparatus main body and post-processing apparatus]
FIG. 2 is a block diagram illustrating configurations of the image forming apparatus main body 10 and the post-processing apparatus 11 according to the present exemplary embodiment. In FIG. 2, the image forming apparatus main body 10 includes a control board 102 on which a CPU 103 serving as a first control unit is mounted, a power supply apparatus 101 that supplies power to the image forming apparatus main body 10 and the post-processing apparatus 11, a main power supply SW 13, A display panel 14 is provided. The image forming apparatus main body 10 includes sensors (every night) 104, sensors (emergency night) 105, an image forming unit 106, and motors 107. A unidirectional or bidirectional arrow connecting the CPU 103 and each device indicates a signal transmitted or transmitted / received between each device and the CPU 103. The CPU 103 instructs the power supply apparatus 101 to output and stop the power supply voltage DC (direct current) 24V, and the power supply apparatus 101 has the power supply voltage DC24V (hereinafter referred to as power supply voltage 24V) and DC5V (hereinafter referred to as power supply voltage 5V). The CPU 103 is notified of the output state. The CPU 103 transmits information to be displayed on the display to the display panel 14 that is the first display means, and the display panel 14 transmits data and instruction information input from the operation SW to the CPU 103. The main power supply SW13 notifies the CPU 103 of the on / off state of the switch. Sensors (every night) 104 are sensors that detect opening and closing of the front door 20, for example, and output a detection signal to the CPU 103 when a change in state is detected even when the CPU 103 is in the sleep mode. The image forming unit 106 includes various devices that form an image on paper. The motors 107 are motors that drive the image forming unit 106, and the sensors (emergency night) 105 form an image during image formation. It is a sensor that detects the state of each device of the unit 106. At the time of image formation in the standby mode, the CPU 103 activates the motors 107 to drive the image forming unit 106, and based on the detection result of the state of each device of the image forming unit 106 by the sensors (emergency night) 105, the image is displayed. The operation of the forming unit 106 is controlled.

  On the other hand, the post-processing device 11 includes a control board 110 on which a CPU 114 is mounted, a paper sensor 112, a stapler unit 15, a stapler moving motor 118, a home position sensor 111 for the stapler moving motor 118, and a paper aligning unit 119. . Further, the post-processing device 11 has a manual stapling LED 17 as a second display means, and a manual stapling buzzer 23 described later in the second embodiment. A unidirectional or bidirectional arrow connecting the CPU 114 and each device indicates a signal transmitted or transmitted / received between each device and the CPU 114. The sheet sensor 112 serving as a detection unit is a sensor for detecting a sheet bundle inserted into the sheet bundle insertion port 16 for performing manual stapling processing. The sheet bundle detection state of the CPU 114 and the image forming apparatus main body 10 is detected. The CPU 103 is notified. The stapler unit 15 includes a stapler 115 for binding a bundle of sheets, a needleless sensor 116, and a home position sensor 117. A needleless sensor 116 serving as a needle detection unit detects the presence or absence of a staple in the stapler 115. A home position sensor 117 serving as a position detection unit returns to the home position before the binding process after the stapler 115 performs the binding process of the sheet bundle, and detects whether or not a staple jam has occurred. The home position sensor 111 is a sensor that detects whether or not the stapler unit 15 is at the home position, and notifies the CPU 114 of the position detection state. The stapler moving motor 118 is a motor for moving the stapler unit 15, and the CPU 114 controls the stapler moving motor 118 based on the detection result of the home position sensor 111. Further, the CPU 114 performs lighting control of the LED 17 and sounding control of the buzzer 23. Information for error display and the like to be described later is transmitted and received between the CPU 114 of the post-processing device 11 and the CPU 103 of the image forming apparatus main body 10.

  Next, power supply from the power supply apparatus 101 to the image forming apparatus main body 10 and the post-processing apparatus 11 will be described. The power supply apparatus 101 generates a power supply voltage 5 V for driving the control system apparatus and a power supply voltage 24 V for driving a drive system apparatus such as a motor, and supplies the generated power supply voltage to the image forming apparatus main body 10. In the image forming apparatus main body 10, the power supply voltage DC3.3V (hereinafter referred to as power supply voltage 3.3V) is generated from the power supply voltage 5V and supplied to the image forming apparatus main body 10 and the post-processing device 11.

  The control substrate 102 of the image forming apparatus main body 10 includes switching elements 1 to 6 that are power supply switching means constituted by field effect transistors (FETs). The CPU 103 performs on / off control of the switching elements 1 to 6 according to the operation states (standby mode and sleep mode) of the image forming apparatus main body 10 and the post-processing apparatus 11, and controls each device in the image forming apparatus main body 10. The power supply to the post-processing device 11 is controlled. The switching element 1 is a switching element for controlling the supply of the power supply voltage 5 V to the display panel 14, and the CPU 103 switches the switching element 1 when acquiring data from the display panel 14 and displaying information on the display. Turn on. When the image forming apparatus 100 is in the sleep mode, the switching element 1 is turned off.

  The switching element 2 is a switching element for controlling the supply of the power supply voltage 3.3 V to the paper sensor 112 of the post-processing device 11. In this embodiment, the CPU 103 turns on the switching element 2 in order to detect insertion of a sheet bundle for performing manual stapling processing even in the sleep mode. The power supply voltage of 3.3 V is constantly supplied to the CPU 103, the main power supply SW13, and the sensors (every night) 104 without using a switching element. When the post-processing device 11 is not provided, the CPU 103 turns off the switching element 2.

  The switching element 3 is a switching element for controlling the supply of the power supply voltage 3.3 V to the sensors (emergency night) 105. The CPU 103 switches the switching element 3 in the standby mode in which image formation is possible. Turn on. When the image forming apparatus 100 is in the sleep mode, the CPU 103 turns off the switching element 3. The switching element 4 is a switching element for supplying the power supply voltage 24V to the image forming unit 106 and the motors 107, and the CPU 103 turns on the switching element 4 in the standby mode in which image formation is possible. When the image forming apparatus 100 is in the sleep mode, the CPU 103 turns off the switching element 4.

  The switching element 5 is a switching element for supplying a power supply voltage of 3.3 V to the post-processing device 11, and when the CPU 103 drives the CPU 114, the stapler unit 15, etc. of the post-processing device 11, the switching element 5 is used. Turn on. The switching element 6 is a switching element for driving the stapler unit 15, the stapler moving motor 118, and the sheet aligning unit 119 of the post-processing device 11. The CPU 103 performs switching when the post-processing device 11 performs stapling processing. The element 6 is turned on.

  Note that the power supply voltage 3.3V and the power supply voltage 24V are supplied to the stapler unit 15, and the power supply voltage 3.3V is supplied to the needleless sensor 116 and the home position sensor 117. 24V is supplied to the stapler 115. Further, the substrate for generating the power supply voltage shown in FIG. 2 and the supply path of the generated power supply voltage are merely examples, and the present invention is not limited to the configuration shown in FIG. There may be. In the present embodiment, power supply to each device can be finely controlled by the above-described configuration of the power supply path, and power consumption can be reduced.

[Power Supply Control in Image Forming Apparatus]
Next, power supply when the image forming apparatus 100 is in the standby mode and the sleep mode will be described. FIG. 3 is a table showing power supply states to the image forming apparatus main body 10 and each apparatus in the post-processing apparatus 11 when the image forming apparatus 100 is in the standby mode and the sleep mode. In FIG. 3, the leftmost column indicates the state of the image forming apparatus main body 10 and the post-processing apparatus 11. In FIG. 3, the sleep mode is divided into a state 2 to a state 5 corresponding to the fourth sleep state from the first sleep state according to the state 1 indicating the standby mode and the state of the post-processing device 11. ing. In FIG. 3, for the image forming apparatus main body 10, the power of the CPU 103, the display panel 14, the main power supply SW 13, the sensors (every night) 104, the sensors (emergency night) 105, the image forming unit 106, and the motors 107. The supply state is shown. On the other hand, in FIG. 3, regarding the post-processing device 11, the paper sensor 112, the CPU 114, the LED 17, the stapler moving motor 118, the home position sensor 111, the motors including the paper alignment unit 119, and the power supply state of the stapler unit 15 are shown. Yes. In the figure, “ON” indicates a state where power is supplied, and “OFF” indicates a state where power supply is interrupted.

  Next, state 1 to state 5 will be described. State 1 is a standby mode in which the image forming apparatus 100 can form an image, and the CPU 103 sets the switching elements 1 to 6 to the on state. As a result, the power supply voltages 3.3 V, 5 V, and 24 V are supplied to the devices in the image forming apparatus main body 10 and the post-processing apparatus 11. On the other hand, the state 2 is a sleep mode state in which the supply of the power supply voltage 24V is cut off and the power supply voltage 3.3V is supplied only to the minimum necessary device in order to suppress the standby power of the image forming apparatus 100. (First sleep state).

  In the state 2, only the switching element 2 is in the on state, and the switching elements 1, 3 to 6 are set in the off state. As a result, only the control board 102 including the CPU 103, the main power supply SW13, the night-time sensors 104, and the sheet sensor 112 of the post-processing apparatus 11 are in operation. Instead of turning off the switching element 4 and the switching element 6 to cut off the supply of the power supply voltage 24V, the CPU 103 may instruct the power supply device 101 to stop generating the power supply voltage 24V or stop the output. Further, for example, the sensors (every night) 104 which are sensors for detecting opening and closing of the paper feed cassette 12 and the front door 20 constantly monitor even in the first sleep state 2 and detect a change in state. 2 is used as a trigger when returning from 2 to the state 1 of the standby mode.

  In state 3, when the image forming apparatus 100 is in state 2, the sheet sensor 112 of the post-processing apparatus 11 detects the insertion of the sheet bundle, and thus the post-processing apparatus 11 returns from the sleep mode to the standby mode (first 2 sleep state). In state 3, switching elements 2, 5, and 6 are set to an on state, and switching elements 1, 3, and 4 are set to an off state. As a result, compared with the state 2, the image forming apparatus main body 10 remains in the sleep mode and does not change, but the post-processing apparatus 11 is in a state in which the whole is operating (standby mode). Further, when the paper sensor 112 of the post-processing device 11 detects the insertion of the paper bundle, the CPU 114 turns on the LED 17.

  The state 4 is a state when the CPU 114 of the post-processing device 11 detects an abnormal state in which the staple processing of the sheet bundle cannot be performed (for example, the staple of the stapler 115 is not detected or the sheet bundle is pulled out). (Third sleep state). As described later, in the state 4, the CPU 114 blinks the LED 17 in order to notify the user of the abnormal state. Further, since the post-processing device 11 cannot execute the staple process, the CPU 103 keeps the switching elements 2 and 5 on and sets the switching element 6 from the on state to the off state. Thereby, the supply of the power supply voltage 24V to the post-processing device 11 is cut off, and the power consumption of the post-processing device 11 is reduced.

  The state 5 is a state (fourth sleep state) when an error message is displayed on the display panel 14 of the image forming apparatus main body 10 after the state 4 has continued for a predetermined time. At this time, in order to display an error message on the display panel 14, the CPU 103 of the image forming apparatus main body 10 sets the switching element 1 to the on state and supplies the display panel 14 with the power supply voltage 5V. Note that the CPU 103 keeps the switching elements 3 and 4 off in order to suppress an increase in power consumption during sleep of the image forming apparatus main body 10. In addition, since the CPU 103 continues to supply the power supply voltage 3.3 V to the paper sensor 112 and the CPU 114 of the post-processing device 11, the switching elements 2 and 5 remain in the on state.

  In the sleep mode in the conventional image forming apparatus, since the sleep mode as in the state 5 is not provided, it is necessary to return the image forming apparatus body 10 to the standby mode in order to display an error message on the display panel. . In the present embodiment, by providing a new sleep mode, it is possible to display an appropriate error message on the display panel 14 while suppressing an increase in power consumption of the image forming apparatus 100, and to prevent a decrease in usability.

[Manual stapling control sequence]
FIGS. 4A and 4B are flowcharts illustrating a control sequence for performing manual stapling processing of a bundle of sheets when the image forming apparatus 100 according to the present exemplary embodiment is in the sleep mode. The processes in FIGS. 4A and 4B are activated when the image forming apparatus 100 is in the state 2 (first sleep state) illustrated in FIG. 3 and are executed by the CPU 103 of the image forming apparatus body 10 and the post-processing apparatus 11. It is executed by the CPU 114. Note that each of the CPU 103 and the CPU 114 has a timer for measuring time. Further, in the image forming apparatus main body 10 when the processes of FIGS. 4A and 4B are activated, only the CPU 103, the main power supply SW13, and the sensors (every night) 104 operate, and the switching element 2 is turned on. Thus, the switching elements 1 and 3 to 6 are set to an off state. Further, the post-processing device 11 is set in the sleep state and is in a state where the power supply voltages 3.3 V and 24 V are not supplied.

  In step (hereinafter referred to as S) 100, the CPU 103 determines whether or not the paper sensor 112 provided in the post-processing device 11 has detected that a paper bundle has been inserted at the manual stapling position of the paper bundle insertion port 16 (paper bundle). Detected?) If the CPU 103 determines that the sheet sensor 112 has detected that a sheet bundle has been inserted, the CPU 103 advances the process to S101, and if the sheet sensor 112 determines that the sheet bundle has not been detected. Returns the process to S100. In S <b> 101, the CPU 103 sets the switching elements 5 and 6 to the on state so that the post-processing device 11 can staple the sheet bundle. As a result, power supply voltages of 3.3 V and 24 V are supplied to the post-processing device 11, and the post-processing device 11 shifts to a standby state (state 3 in FIG. 3). When the power supply voltage 3.3V is supplied, the CPU 114 of the post-processing device 11 executes an initialization process of the post-processing device 11.

  In S102, the CPU 114 determines whether or not the initialization of the post-processing device 11 has been completed normally. If the CPU 114 determines that the initialization has been completed normally, the process proceeds to S103. The process proceeds to S124. Since the initialization here is initialization for performing manual stapling processing on a bundle of sheets, whether or not the normal end is determined is based on the presence or absence of an abnormal state such as staple absence of the stapler 115. To do. For this reason, for example, it is not always necessary to detect the fullness of the discharge tray 19 or the JAM (paper jam) detection of the paper transport path.

  In S103, the CPU 114 drives the stapler moving motor 118 to move the stapler unit 15 including the stapler 115 to the manual staple position in order to move the stapler 115 to the manual staple position. In S104, the CPU 114 determines whether the stapler unit 15 has moved to the manual stapling position within a predetermined time based on the detection result of the home position sensor 111. If the stapler unit 15 has moved to the manual stapling position within a predetermined time, the CPU 114 advances the process to S105, and if not moved to the manual stapling position, advances the process to S115.

  In S115, the CPU 114 determines that the stapler moving motor 118 has failed because the stapler unit 15 cannot move to the position where the manual stapling process is executed, and notifies the CPU 103 of the image forming apparatus body 10 of the failure of the stapler moving motor 118. In S116, in order to display the alarm information received from the CPU 114 on the display of the display panel 14, the CPU 103 sets the switching element 1 to the on state and supplies the power supply voltage 5V to the display panel (state 5 in FIG. 3). . Further, the CPU 103 sets the switching element 6 to the OFF state in order to stop the power supply to the device driven by the power supply voltage 24V such as the stapler moving motor 118 of the post-processing device 11. In S117, the CPU 103 displays an error message on the display panel 14 for prompting the failure of the stapler moving motor 118 and turning off the main power, and ends the process.

  In S <b> 105, the CPU 114 continues to determine whether the sheet bundle is at the manual stapling position based on the detection result of the sheet sensor 112. If the CPU 114 determines that the sheet bundle is at the manual staple position, the process proceeds to S106, and if the CPU 114 determines that the sheet bundle is not at the manual staple position, the process proceeds to S118.

  In S106, the CPU 114 turns on the LED 17 (state 3 in FIG. 3). In step S <b> 107, the CPU 114 executes manual stapling processing on the inserted sheet bundle by the stapler unit 15. In S108, the CPU 114 determines whether or not the manual stapling process for the sheet bundle has been normally completed. If the CPU 114 determines that the manual stapling has ended normally, the process proceeds to S109. The process proceeds to S138. In S109, the CPU 114 turns off the LED 17 because the manual stapling process for the sheet bundle has been normally completed. In S110, the CPU 114 notifies the CPU 103 of the image forming apparatus body 10 of the end of the manual stapling process. When the user inserts a sheet bundle, the CPU 114 stands by in a standby state to continue the manual stapling process. In S <b> 111, upon receiving the manual stapling process end notification from the CPU 114, the CPU 103 continues to reset and start a timer to monitor whether or not a sheet bundle for manual stapling is inserted. In S <b> 112, the CPU 103 determines whether the sheet sensor 112 has detected that a sheet bundle has been inserted into the sheet bundle insertion port 16 (detected sheet bundle?). If the CPU 103 determines that the sheet sensor 112 has detected the insertion of the sheet bundle, the process returns to S106, and if the sheet sensor 112 determines that the insertion of the sheet bundle has not been detected, the process proceeds to S113. . In S113, the CPU 103 refers to the timer to determine whether or not the predetermined time has elapsed. If it is determined that the predetermined time has elapsed, the process proceeds to S114, and the predetermined time has not elapsed (within the predetermined time). ), The process returns to S112. In S <b> 114, the CPU 103 sets the switching elements 1, 3 to 6 to the off state in order to shift the image forming apparatus main body 10 and the post-processing apparatus 11 to the state 2 (first sleep state). As a result, in the post-processing device 11, the power supply voltage 3.3V is supplied only to the paper sensor 112, the supply of the power supply voltages 3.3V and 24V to the other devices including the CPU 114 is cut off, and the sleep mode is state 2 ( Transition to the first sleep state (state 2 in FIG. 3). In the image forming apparatus main body 10, the power supply to the display panel 14, sensors (emergency night) 105, the image forming unit 106, and the motors 107 is cut off, and the state transitions to state 2 (state 2 in FIG. 3). The process ends.

  In S118, the CPU 114 stops execution of the manual stapling process because the user pulled out the sheet bundle during the manual stapling process sequence, and causes the LED 17 to blink to warn the user. Pulling out the sheet bundle occurs when the user rearranges the sheets of the sheet bundle or pulls out the sheet bundle once to change the staple position of the sheet bundle. Although the LED 17 is blinked here, the LED 17 may be lit in a color different from the color that is lit when a sheet bundle is detected, for example. Further, when the LED may blink even in the case of another failure, the blinking cycle such as shortening the blinking cycle of the LED may be changed for distinction. Thus, a warning can be notified to the user by performing an LED lighting operation that does not occur in the normal operation. In S119, the CPU 114 resets and starts the timer. In S120, the CPU 114 determines whether the sheet bundle is at the manual stapling position based on the detection result of the sheet sensor 112. If the CPU 114 determines that the sheet bundle is at the manual staple position, the process proceeds to S121. If the CPU 114 determines that the sheet bundle is not at the manual staple position, the process proceeds to S122. In S121, CPU114 sets LED17 from a blinking state to a lighting state, and advances a process to S107. In S122, the CPU 114 refers to the timer to determine whether or not the predetermined time has elapsed, and when it is determined that the predetermined time has elapsed, the process proceeds to S123, and when it is determined that the predetermined time has not elapsed. Returns the process to S120. In S123, the CPU 114 determines that the manual stapling process for the sheet bundle has been stopped, sets the LED 17 from the blinking state to the unlit state, and advances the process to S110.

  In S124 of FIG. 4B, the CPU 114 determines whether or not the stapler 115 is in the needle-free state based on the detection result of the needle-less sensor 116 provided in the stapler unit 15. If the CPU 114 determines that the stapler 115 is in the no needle state, the process proceeds to S125. If the CPU 114 determines that the stapler 115 is not in the no needle state, the process proceeds to S135. In S125, the CPU 114 sets the LED 17 to a blinking state in order to warn that the stapler 115 is in the needleless state and the manual stapling process cannot be executed. Although the LED 17 is blinked here, the LED 17 may be lit in a color different from the color that is lit when a sheet bundle is detected, for example. Further, when the LED may blink even in the case of another failure, the blinking cycle such as shortening the blinking cycle of the LED may be changed for distinction.

  In S126, the CPU 114 resets and starts the timer. In S127, the CPU 114 determines whether the staple replacement (needle mounting) of the stapler 115 has been performed based on the detection result of the needleless sensor 116. If the detection result of the needleless sensor 116 is that there is a needle (needle detection), the CPU 114 determines that the needle has been replaced, and advances the process to S128. On the other hand, if the detection result of the needleless sensor 116 indicates that there is no needle, the CPU 114 determines that the needle replacement has not been performed, and advances the process to S129. In S128, the CPU 114 sets the LED 17 from the blinking state to the lit state, and advances the processing to S103 in order to perform manual stapling processing. In S129, the CPU 114 refers to the timer to determine whether or not the predetermined time has elapsed, and when it is determined that the predetermined time has elapsed, the process proceeds to S130, and when it is determined that the predetermined time has not elapsed. Returns the process to S127. In S130, the CPU 114 sets the LED 17 from the blinking state to the unlit state. In step S131, the CPU 114 notifies the CPU 103 of the image forming apparatus main body 10 that the stapler 115 has no needle. In S132, in order to display the alarm information received from the CPU 114 on the display of the display panel 14, the CPU 103 sets the switching element 1 to the on state and supplies the power supply voltage 5V to the display panel (state 5 in FIG. 3). . Note that the CPU 103 does not stop power supply to a device driven by a power supply voltage of 24 V, such as the stapler moving motor 118 of the post-processing device 11 in consideration of the quick response by the user in the case of needle replacement. Shall. In S <b> 133, the CPU 103 displays a staple absence error of the stapler 115 and the front door 20 of the post-processing device 11 on the display panel 14, displays an error message prompting needle replacement, and prompts the user to replace the needle again. In S <b> 134, the CPU 114 determines whether the staple replacement of the stapler 115 has been performed based on the detection result of the needleless sensor 116. If the CPU 114 determines that the needle replacement has been performed, the process proceeds to S103. If the CPU 114 determines that the needle replacement has not been performed, the process returns to S134.

  In S <b> 135, the CPU 114 determines that the post-processing device 11 has failed because the initialization process of the post-processing device 11 has not ended normally due to a failure other than the staple of the stapler 115. The failure of the post-processing device 11 is notified. In S136, in order to display the alarm information received from the CPU 114 on the display of the display panel 14, the CPU 103 sets the switching element 1 to the on state and supplies the power supply voltage 5V to the display panel (state 5 in FIG. 3). . Further, the CPU 103 sets the switching element 6 to the OFF state in order to stop the power supply to the device driven by the power supply voltage 24V such as the stapler moving motor 118 of the post-processing device 11. In S137, the CPU 103 displays on the display of the display panel 14 an error message prompting the failure of the post-processing device 11 and turning off the main power supply, and the process is terminated.

  In S138 of FIG. 4B, based on the detection result of the home position sensor 117, the CPU 114 determines whether or not the manual stapling process for the sheet bundle has not ended normally due to the occurrence of a staple jam. If the CPU 114 determines that a needle jam has occurred, the process proceeds to S139. If the CPU 114 determines that a needle jam has not occurred, the process proceeds to S142. The reason why the manual stapling process on the sheet bundle does not end normally is that the stapler 115 is jammed when the staple process is performed on the sheet bundle, or whether the stapler 115 is in a stapleless state after the staple process is completed. Two cases are conceivable. Therefore, in S138, it is determined whether or not the manual stapling process has not ended normally due to the occurrence of a needle jam. In the manual stapling process of the present embodiment, the stapler 115 performs one stapling process for binding the sheet bundle.

  In S <b> 139, the CPU 114 determines that a staple jam has occurred in the stapler 115, and notifies the CPU 103 in the image forming apparatus body 10 of the staple jam failure. In S140, in order to display the alarm information received from the CPU 114 on the display of the display panel 14, the CPU 103 sets the switching element 1 to the on state and supplies the power supply voltage 5V to the display panel (state 5 in FIG. 3). . Further, the CPU 103 sets the switching element 6 to the OFF state in order to stop the power supply to the device driven by the power supply voltage 24V such as the stapler moving motor 118 of the post-processing device 11. In S <b> 141, the CPU 103 displays on the display of the display panel 14 an error message that prompts the stapler unit 15 to confirm the staple jamming failure and the main power supply, and ends the processing.

  In S <b> 142, the CPU 114 sets the LED 17 in a blinking state to warn that the stapler 115 is in the needleless state and the manual stapling process cannot be executed for the next sheet bundle. Although the LED 17 is blinked here, the LED 17 may be lit in a color different from the color that is lit when a sheet bundle is detected, for example. Further, when the LED may blink even in the case of another failure, the blinking cycle such as shortening the blinking cycle of the LED may be changed for distinction.

  In S143, the CPU 114 resets and starts the timer. In S <b> 144, the CPU 114 determines whether the staple replacement of the stapler 115 has been performed based on the detection result of the needleless sensor 116. If the detection result of the needleless sensor 116 is that there is a needle (needle detection) and the CPU 114 determines that the needle has been replaced, the CPU 114 advances the processing to S145. On the other hand, if the CPU 114 determines that the detection result of the needleless sensor 116 is that there is no needle and the needle has not been replaced, the process proceeds to S146. In S145, the CPU 114 sets the LED 17 from the blinking state to the unlit state, and advances the processing to S110 in order to end the manual stapling process. In S146, the CPU 114 refers to the timer to determine whether or not the predetermined time has elapsed, and when it is determined that the predetermined time has elapsed, the process proceeds to S147, and when it is determined that the predetermined time has not elapsed. Returns the process to S144. In S147, the CPU 114 sets the LED 17 from the blinking state to the unlit state, and does not execute the manual stapling process for the next sheet bundle, so the process proceeds to S114.

  As described above, in the present embodiment, the abnormal state related to the stapler unit of the post-processing device 11 is a serious failure that cannot be handled by the user (serious failure), or a lightness that can be dealt by the user such as a stapler without needle. The notification method is changed. As a result, in the case of a mild abnormality warning that can be easily handled by the user, such as needle replacement when the staple of the stapler is not used, the display panel 14 of the image forming apparatus body 10 is activated only by the blinking display of the LED 17. Does not display a failure message. Therefore, the image forming apparatus main body 10 can notify the user of a warning by blinking the LED 17 of the post-processing apparatus 11 while keeping the low power consumption sleep mode. In the present embodiment, the notification method to the user is changed depending on the serious failure and the minor abnormality. However, for example, only in the case of pulling out the sheet bundle that can cope with the failure by reinserting the sheet bundle (FIG. 4). 1 and S118), the user may be notified by flashing an LED.

  In this embodiment, the display control on the display panel 14 is configured to be performed by the CPU 103 of the image forming apparatus main body 10. However, the control of the display panel is not limited to the configuration shown in FIG. The configuration shown in FIG. 5 may be configured to perform display control of the display panel. Compared to the image forming apparatus 100 shown in FIG. 2, the image forming apparatus 100 shown in FIG. 5 includes a user I / F (interface) control board 120 between the CPU 103 of the image forming apparatus body 10 and the display panel 14. Is different. The user I / F (interface) control board 120 has a CPU 121, a PC I / F 122 that is a connection terminal for a personal computer (PC), and a USB I / F 123 that is a USB terminal. The CPU 121 transmits / receives data to / from a personal computer and reads / writes data from / to a USB device via the PC I / F 122 and the USB I / F 123. Further, the CPU 121 transmits data and instruction information input from the operation SW of the display panel 14 to the CPU 103 and displays the display information transmitted from the CPU 103 on the display of the display panel 14.

  As described above, according to the present embodiment, an increase in power consumption can be suppressed and error notification of the post-processing apparatus can be performed.

  In the first embodiment, the procedure for performing failure notification using an LED provided in the post-processing device when notifying a minor failure that can be handled by the user has been described. In the second embodiment, a procedure for performing failure notification by sounding a warning sound using a buzzer instead of an LED will be described. Note that the configurations of the image forming apparatus main body 10 and the post-processing apparatus 11 constituting the image forming apparatus 100 of the present embodiment are the same as those in FIG.

[Manual stapling control sequence]
FIGS. 6A and 6B are processes in which a failure warning is given to the user using the LED 17 of the post-processing device 11 in FIGS. 4A and 4B of the first embodiment (“LED blinks”). )) Is a control sequence extracted from the processing sequence. The LED control processing includes “LED ON” (S106) and “LED OFF” (S109) in FIG. These two processes are LED controls for displaying the end of the stapling process of the paper bundle during the stapling process of the paper bundle, and are not controls for issuing a warning to the user. It is not included in FIG. Further, the processes in S100 to S117 in FIG. 4A are processes that are started when the image forming apparatus 100 is in the sleep mode. In the second embodiment, the processes are performed in the same manner as in the first embodiment. Explanation here is omitted.

  The process shown in FIG. 6A is NO in the determination in S102 of FIG. 4-1 of the first embodiment, that is, the paper sensor 112 of the post-processing device 11 detects the paper bundle, and the post-processing device. 11 is a process executed when the initialization process of the CPU 114 does not end normally. The process shown in FIG. 6A is the same as the process shown in S124 to S137 of FIG. 4-2 of the first embodiment, and the processes of S125, S128, and S130 of FIG. In (a), they are changed to S200, S201, and S202, respectively. In addition, about the process of S124, S126, S127, S129, S131-S137, it is the same as that of the process of FIG. 4-2, and description here is abbreviate | omitted.

  In FIG. 6A, in S200, the CPU 114 sounds the buzzer 23 and issues a warning sound in order to warn that the stapler 115 is in the needleless state and the manual stapling process cannot be executed. In step S201, the CPU 114 stops the ringing of the buzzer 23, stops the warning sound, and advances the processing to step S103 in order to perform manual stapling processing. Further, in S202, the CPU 114 stops the buzzer 23 and stops the warning sound.

  The process shown in FIG. 6B is performed in the case of NO in S105 of FIG. 4A of the first embodiment, that is, the sheet bundle detected by the sheet sensor 112 is pulled out, and the sheet bundle is moved to the manual staple position. This process is executed when it is determined that there is not. The process shown in FIG. 6B is the same as the process shown in S118 to S123 in FIG. 4A of the first embodiment, and the processes in S118, S121, and S123 in FIG. In (b), they are changed to S203, S204, and S205, respectively. Note that the processing of S119, S120, and S122 is the same as the processing of FIG. 4A and will not be described here.

  In FIG. 6B, in S203, the CPU 114 stops the manual stapling process because the user pulled out the sheet bundle during the manual stapling process sequence, and sounds the buzzer 23 for warning. Sound a warning sound. In S204, since the CPU 114 determines that the sheet bundle is at the manual stapling position, the CPU 114 stops the buzzer 23 and stops the warning sound. Then, the CPU 114 advances the processing to S107 in order to perform manual stapling processing. Further, in S205, the CPU 114 determines that the stapling process for the sheet bundle has been canceled, stops the buzzer 23 from ringing, stops the warning sound, and advances the process to S110.

  The process shown in FIG. 6-2 (c) is a process that is executed when the determination in S108 of FIG. 4-1 of the first embodiment is NO, that is, when the manual stapling process has not ended normally. . The process shown in FIG. 6C is the same as the process shown in S138 to S147 of FIG. 4-2 of the first embodiment, and the processes of S142, S145, and S147 of FIG. In c), they are changed to S206, S207, and S208, respectively. In addition, about the process of S138-S141, S143, S144, and S146, it is the same as that of the process of FIGS. 4-2, and description here is abbreviate | omitted.

  6-2 (c), in S206, the CPU 114 sounds the buzzer 23 to warn that the stapler 115 is in the stapleless state and the manual stapling process cannot be executed for the next sheet bundle to be inserted. Sound a warning sound. In S207, the CPU 114 advances the process to S110 in order to stop the buzzer 23 from sounding, stop the warning sound, and end the manual stapling process. Further, in S208, the CPU 114 stops ringing of the buzzer 23 and stops the warning sound. Since the stapler 115 is in the stapleless state, the manual stapling process for the sheet bundle cannot be executed, and the process proceeds to S114.

  In the present embodiment, the procedure for performing the failure notification using the buzzer provided in the post-processing device 11 when the user reports a mild abnormality that can be dealt with has been described. Since the CPU 114 of the post-processing device 11 can control both the LED 17 and the buzzer 23, for example, when the buzzer is sounded, the LED 17 is also blinked or when the buzzer is stopped. It may be turned off. Thereby, a synergistic effect can be exhibited by visual and sound warning.

As described above, in this embodiment, a warning sound by a buzzer is used instead of the blinking of the LED performed in the first embodiment, so that a failure can be prevented without reducing usability as in the first embodiment. Can be notified.
As described above, according to the present embodiment, an increase in power consumption can be suppressed and error notification of the post-processing apparatus can be performed.

1-6 Switching element 103 CPU
DESCRIPTION OF SYMBOLS 10 Image forming apparatus main body 11 Post-processing apparatus 14 Display panel 15 Staple unit 17 LED
112 Paper sensor 114 CPU

Claims (16)

An image forming unit for forming an image on paper;
A post-processing device that performs a stapling process in which a sheet on which an image is formed by the image forming unit is conveyed, and a bundle of the conveyed sheets is bound by a stapler;
An image forming apparatus capable of switching the image forming unit and the post-processing apparatus to a standby mode in which image formation is possible, or a power saving sleep mode in which image formation is not performed,
The image forming apparatus includes: a first display unit that displays information; a switching unit that switches power supply to or off from the image forming unit, the first display unit, and the post-processing device; and the standby mode. Or a first control unit that controls power supply to the image forming unit, the first display unit, and the post-processing device by the switching unit according to the sleep mode,
The post-processing device includes a stapling unit that performs the stapling process, a detection unit that detects that a sheet bundle is inserted into an insertion port into which a sheet bundle to be stapled in the sleep mode is inserted, and the stapling process. Second display means for displaying a status; and second control means for controlling the stapling means to perform the stapling process on a bundle of sheets;
If an abnormality occurs when the stapling process is performed in the sleep mode, the second control unit notifies the second display unit according to the abnormality, or the first control unit. The image forming apparatus, wherein the abnormality is notified, and the abnormality is notified by the first display means. The detection means outputs a detection result of the sheet bundle to the first control means and the second control means,
The first control means includes
When switching from the standby mode to the sleep mode, the switching unit cuts off power supply to the first display unit and the image forming unit of the image forming apparatus, and the stapling unit of the post-processing apparatus. Shutting off the power supply to the second display means and the second control means, and supplying power to the detection means,
When the detection unit detects a sheet bundle, the switching unit performs power to the stapling unit, the second display unit, and the second control unit of the post-processing apparatus in order to perform the stapling process. The image forming apparatus according to claim 1, wherein supply is performed.   The image forming apparatus according to claim 2, wherein the first control unit supplies power to the first display unit by the switching unit in order to notify the abnormality.   The stapler includes a stapler that binds a bundle of sheets, a motor that moves the stapler to a predetermined position, a position detector that detects the position of the stapler, and a needle detector that detects the presence or absence of the staple of the stapler; The image forming apparatus according to claim 3, further comprising:   The second control means notifies the absence of the needle by the second display means when the staple absence of the stapler occurs and the needle detection means detects the staple absence of the stapler. The image forming apparatus according to claim 4.   The said 2nd control means stops the alerting | reporting of abnormality by a said 2nd display means, when the said needle | hook detection means detects mounting | wearing of the needle | hook of the said stapler. Image forming apparatus.   The second control means stops the notification of abnormality by the second display means when the needle detection means continuously detects the absence of the staple of the stapler for a predetermined time, and the detection means In the case where the stapler has detected no staple before the stapling process, the abnormality is notified to the first control means in order to notify the abnormality by the first display means. The image forming apparatus according to claim 5 or 6.   The second control means stops the notification of abnormality by the second display means when the needle detection means continuously detects the absence of the staple of the stapler for a predetermined time, and the detection means 7. The image forming apparatus according to claim 5, wherein when the absence of a staple in the stapler is detected after the stapling process, the image forming apparatus shifts to the sleep mode. The second display means is an LED,
The image forming apparatus according to claim 5, wherein the second control unit notifies the abnormality by blinking the LED. The second display means is a buzzer,
The image forming apparatus according to claim 5, wherein the second control unit notifies the abnormality by sounding the buzzer.   When the abnormality of the motor occurs, the second control means does not notify the abnormality by the second display means, and notifies the abnormality of the motor to the first control means. The image forming apparatus according to claim 4.   The said 2nd control means detects abnormality of the said motor, when the said stapler does not move to a predetermined position within predetermined time by the detection result of the said position detection means. The image forming apparatus described.   When the staple jamming abnormality of the stapler occurs, the second control means does not notify the abnormality by the second display means and notifies the staple jamming of the stapler to the first control means. The image forming apparatus according to claim 4.   The image forming apparatus according to claim 13, wherein the second control unit detects a staple jamming abnormality of the stapler by not returning to a predetermined state after the stapler has bound the sheet bundle. .   15. The image forming apparatus according to claim 7, wherein the first control unit cuts off power supply to the stapling unit by the switching unit.   The second control means, when the detecting means detects the paper bundle and stops detecting the paper bundle before performing the stapling process by the stapling means, again in a predetermined time. The stapling process is performed when a bundle is detected, and the mode is shifted to the sleep mode when a sheet bundle is not detected within the predetermined time. The image forming apparatus described in the item.

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