JP2010197670A - Image forming apparatus and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image forming apparatus and a program which can reduce power consumption when an instruction to copy is given during a power saving mode and can shorten time required to start a copying after the instruction to copy is given. <P>SOLUTION: If an interruption signal is detected (S102) during a power saving mode (S101), a determination is made whether paper has been set in a document feeder of an image reading unit or not (S103). If the determination is made that the paper has been set (Yes in S103), the image reading unit is restarted from the state in which a power source is off (S104). Then, it is determined whether a start button has been depressed or not (S105), and if the determination is made that the start button has been depressed (Yes in S105), a copying process is performed (S106), and after the copying process is finished, the apparatus is shifted to the power saving mode (S107). <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an image forming apparatus and a program.

  For example, Patent Document 1 proposes an operation mode control device or the like that allows an image recording apparatus to perform a standby operation at an appropriate timing. This operation mode control device or the like is an output device information acquisition unit that acquires information relating to an operation time required for the standby operation from an image recording device that can be set to the sleep mode and can cancel the sleep mode that is set by performing the standby operation. It has. The operation mode control device or the like acquires image data before processing included in the print job in synchronization with an image data generation device that processes the print job and generates image data of each page. Includes a time calculation unit for calculating a processing time required to process image data and generate image data. Also, the operation mode control device or the like instructs the image recording device to start the standby operation so that the standby operation is completed almost simultaneously with the arrival of the image data on the image recording device based on the operation time and the processing time. A standby operation instruction unit is provided.

JP 2005-258957 A

  Here, when the image forming apparatus performs processing such as copying processing in the power saving mode, it is necessary to return the image forming apparatus from the power saving mode, which increases power consumption. If the power consumption in such a case can be reduced, it can contribute to energy saving. In addition, when the image forming apparatus is to execute processing such as copy processing in the power saving mode, the copy processing is started after performing various processing such as initialization. It will take longer to do. Therefore, it is conceivable that the user sets the image forming apparatus so as not to enter the power saving mode.

  The present invention provides an image forming apparatus and a program capable of reducing the power consumption when a copy instruction is issued in the power saving mode and reducing the time from when the copy instruction is issued until the start of copying. The purpose is to do.

The invention according to claim 1 is configured to be capable of realizing a plurality of functions including an image reading function for reading an image of a document and an image forming function for forming an image, and exhibits any one of the plurality of functions. A first power state that is in a state of being in operation, a second power state that is in a state where the function can be exhibited, and a third power state in which there is no power consumption of the function or lower than in the case of the second power state A document preparation detection unit that outputs a signal when a user prepares a document is detected, an operation unit that outputs a signal for performing the image forming function when operated by the user, When the function is in the third power state, the image reading function and the image among the plurality of functions are received by receiving signals from the document preparation detection unit and the operation unit. The forming function in the first power state is an image forming apparatus and a control means for controlling so that the copying of the document detected by the document preparation detection means is started.
According to a second aspect of the present invention, when the copying of the original is completed, the control unit shifts the image reading function and the image forming function to the third power state without passing through the second power state. The image forming apparatus according to claim 1, wherein the image forming apparatus is controlled as follows.
According to a third aspect of the present invention, the apparatus main body is configured to be capable of realizing a display function for displaying contents to be notified to a user as the plurality of functions, and the control means is configured such that the display function is the third function. 3. The display function is not set to the first power state and the second power state even when signals from the document preparation detection unit and the operation unit are received in the power state. The image forming apparatus described in the above.
According to a fourth aspect of the present invention, the apparatus main body includes, as the plurality of functions, a first storage medium having a rotation mechanism and rotating by the rotation mechanism and a second storage medium not having the rotation function. And storing the data using the storage unit, and the control unit receives the signals from the document preparation detection unit and the operation unit when the storage function is in the third power state. 4. The image forming apparatus according to claim 1, wherein the document is copied using the second storage medium without using a medium.

The invention according to claim 5 is configured to be capable of realizing a plurality of functions including an image reading function for reading an image of a document and an image forming function for forming an image, and exhibits any one of the plurality of functions. A first power state that is in a state of being in operation, a second power state that is in a state where the function can be exhibited, and a third power state in which there is no power consumption of the function or lower than in the case of the second power state A first reception function that receives a signal from a document preparation detection unit that outputs a signal when a user prepares a document is detected in a computer included in the image forming apparatus, and the image formation function when operated by a user A second reception function for receiving the signal from the operation unit that outputs a signal for demonstrating the power, and the first reception function when the plurality of functions are in the third power state. When the signal is received by the second receiving function, the image reading function and the image forming function of the plurality of functions are set to the first power state and the document preparation detection unit detects the document. And a control function for controlling so that copying is started.
According to a sixth aspect of the present invention, the control function causes the image reading function and the image forming function to transition to the third power state without passing through the second power state when copying of the document is completed. The program according to claim 5, wherein the program is controlled as follows.
According to a seventh aspect of the present invention, the image forming apparatus is configured to be able to realize a display function for displaying contents to be notified to a user as the plurality of functions, and the display function is the third function. The display function is not changed to the first power state and the second power state even if the signal is received by the first reception function and the second reception function in the power state of A program according to claim 5 or 6.
According to an eighth aspect of the present invention, the image forming apparatus includes, as the plurality of functions, a first storage medium having a rotation mechanism and rotating by the rotation mechanism, and a second storage medium having no rotation function. And the control function receives the signal by the first reception function and the second reception function when the storage function is in the third power state, 8. The program according to claim 5, wherein the original is copied using the second storage medium without using the first storage medium.

According to the first aspect, compared with the case where the present invention is not adopted, the power consumption when the copy instruction is given in the power saving mode is reduced, and the time from the copy instruction is made until the copy is started is reduced. It becomes possible to shorten.
According to the second aspect, it is possible to further reduce the power consumption when a copy instruction is issued in the power saving mode than in the case of the first aspect.
According to claim 3, it is possible to start copying without waiting for the display function to return from the power saving mode as compared with the case where the present invention is not adopted.
According to the fourth aspect, compared with the case where the present invention is not adopted, it is possible to start copying without waiting for the first storage medium having the storage function to return from the power saving mode.
According to the fifth aspect, compared to the case where the present invention is not adopted, the power consumption when the copy instruction is given in the power saving mode is reduced, and the time from when the copy instruction is given until the start of copying is reduced. It becomes possible to shorten.
According to the sixth aspect, it is possible to further reduce the power consumption when the copy instruction is issued in the power saving mode, compared with the case of the fifth aspect.
According to the seventh aspect, it is possible to start copying without waiting for the display function to return from the power saving mode as compared with the case where the present invention is not adopted.
According to the eighth aspect, it is possible to start copying without waiting for the first storage medium having the storage function to return from the power saving mode as compared with the case where the present invention is not adopted.

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings.
FIG. 1 is a diagram illustrating an example of the overall configuration of an image forming apparatus 1 to which the exemplary embodiment is applied. An image forming apparatus 1 shown in FIG. 1 includes an image forming unit 2 that forms an image based on image data (image information) of each color, and an image reading unit that reads an image of a document to generate image data and sends the image data to the image forming unit 2. 3 is provided. The image reading unit 3 includes a document feeder (ADF) 31 and a document table cover 32 that covers the platen glass.
In addition, the image forming apparatus 1 includes a user interface (UI) unit 4 that receives an operation input from a user and displays various information for the user, and a facsimile (FAX) that transmits and receives image information via a public telephone line, for example. And a unit 5.
Further, the image forming apparatus 1 is provided inside the housing of the image forming unit 2 or externally attached to the image forming unit 2, and supplies a sheet to the image forming unit 2 and a memory as an external storage device. And a unit 7. Furthermore, the image forming apparatus 1 includes a system control (System Cont.) Unit 8 that controls the operation of the entire image forming apparatus 1 and communication via a communication line, a power supply unit 9 that supplies power to each unit, It has.

FIG. 2 is a diagram for explaining a functional configuration of the image forming apparatus 1 shown in FIG. In the present embodiment, the image forming unit 2, the image reading unit 3, the UI unit 4, the FAX unit 5, the paper feeding unit 6, the memory unit 7 and the system control unit 8 are connected to an in-machine LAN 10 which is an example of in-machine communication means. Has been. In this embodiment, the units constituted by the control function units and the image forming function units are connected to one bus (in-machine LAN 10) to realize communication between the units. In this respect, it is different from the conventional technique in which communication between each unit is connected by a different control bus.
In the present embodiment, an external device (external device) is connected to the external LAN 12 via the system control unit 8.

Each unit is provided with a control unit for executing power supply / stop state determination and power supply / stop control, which will be described later. 2, the image forming unit 2 includes an image forming control unit 92 as an example of a control unit, and the image reading unit 3 includes an image reading control unit 93 as an example of a control unit. The UI unit 4 has a UI control unit 94 as an example of control means, the FAX unit 5 has a FAX control unit 95 as an example of control means, the paper feed unit 6 has a paper feed control unit 96 as an example of control means, The memory unit 7 is provided with a memory control unit 97 as an example of control means, and the system control unit 8 is provided with a system control unit control unit 98 as an example of control means.
As such a control unit, for example, it may be configured by a CPU (Central Processing Unit) and an ASIC (Application Specific IC).

Further, the image forming unit 2 is provided with a RAM (Random Access Memory) 120 for temporarily storing a program. The image forming unit 2 is operated by a program developed in the RAM 120.
The image reading unit 3 also detects a document as an example of a document preparation detection unit that detects the preparation of the document by the user by installing the document (paper to be copied) on the document feeder (ADF) 31 (see FIG. 1). A sensor 130 is provided. Further, the UI unit 4 is provided with a power saving button 140 for the user to change the power mode described above.
The document detection sensor 130 may be configured to detect the user's preparation of the document by opening and closing the document table cover 32.

The memory unit 7 has a rotation mechanism, and a hard disk drive (HDD) 170 as a first storage medium rotated by the rotation mechanism, and a non-volatile memory (NVM (NVM) as a second storage medium having no rotation mechanism. Non Volatile Memory)) 177. The hard disk drive 170 is a storage device that rotationally drives a disk coated with a magnetic material, and writes or reads data on the disk using a magnetic head. The nonvolatile memory 177 can rewrite data and retain data after the power is turned off. For example, a flash memory, an EEPROM (Electronically Erasable and Programmable Read Only Memory), or the like can be used.
In addition, the system control unit 8 is provided with a start button 180 as an example of an operation unit that outputs a signal for performing an image forming function when operated by a user. The start button 180 is connected to the system control unit control unit 98 via a hot line. That is, the start button 180 is a key for directly requesting the system control unit control unit 98 to execute the system control, and can be considered to be the same as the hot key.

  Further, a power line 11 is connected to the image forming unit 2 and other units (image reading unit 3, UI unit 4, FAX unit 5, paper feeding unit 6, memory unit 7 and system control unit 8) of the image forming apparatus 1. The power is supplied via the power supply unit 9 connected to the power line 11. The power supply unit 9 always supplies power of a predetermined voltage (24V) as an overnight power source.

The image forming unit 2 which is an image forming function unit, the image reading unit 3 which is various control function units, the UI unit 4, the FAX unit 5, the paper feeding unit 6, the memory unit 7 and the system control unit 8 are controlled in the power mode. It is a possible unit. For example,
(I) Power off (OFF) during system sleep,
(Ii) Standby power 5V,
(Iii) Electric power at the time of job execution 24V
Control with the power mode. In control of these power modes, the image forming function section and various control function sections themselves determine the system state or an appropriate time elapse, and change the power mode. That is, the image forming control unit 92 of the image forming unit 2, various control function units (image reading unit 3, UI unit 4, FAX unit 5, paper feed unit 6, memory unit 7, system control unit 8) control unit (image control unit 8). The reading control unit 93, UI control unit 94, FAX control unit 95, paper feed control unit 96, memory control unit 97, and system control unit control unit 98) itself from information obtained via the in-machine communication means (in-machine LAN 10). The power supply / stop state is determined by itself, and the power supply / stop control from the power supply unit 9 as the power supply means is performed by itself. Therefore, the image forming control unit 92 and the control unit (image reading control unit 93, UI control unit 94, FAX control unit 95, paper feed control unit 96, memory control unit 97, system control unit control unit 98) Information transmitted via (in-flight LAN 10) is acquired.

  Hereinafter, the control units 92 to 98 may be referred to as the control unit 30. The control unit 30 is a processing means for starting a recovery process necessary for the controller 30 to recover based on a recovery factor that is recovered by receiving power supply from the power supply unit 9 when the controller 30 is in a power-off state. And transmission means for transmitting information about the recovery time, which is the time from when the processing unit starts the recovery process to when it returns, via the onboard LAN 10 before starting the recovery process by the processing unit. is there. The control unit 30 constitutes delay means for delaying the start of the return processing by the processing means until the return time information is received via the in-flight LAN 10 after the transmission time information is transmitted by the transmission means. It is.

  Such power supply / stop control is performed not only between the units but also between devices (components) in the units constituting the units. That is, each device constituting each unit is connected to an intra-unit LAN that connects each device. Then, the control unit provided in each device can determine the power supply / stop state of itself and control the power supply / stop by itself.

In other words, the image forming unit 2, the image reading unit 3, and the FAX unit 5 are transitioned by their own judgments, the power off state as the third power state, the 5 V on state as the second power state, There are three states of 24V on as one power state. In addition, as a state in which the UI unit 4 transitions based on its own judgment, the power off state as the third power state, the LED off state as the second power state, and the 24V on state as the first power state There are three states.
Further, as the power supply transition state of the system control unit 8, the power off state as the third power state, the CPU off state as the third power state, the 5V on state as the second power state, the first power There are four states of 24V on state. The CPU off state refers to a state in which the CPU is turned off in a standby state.

FIG. 3 is a block diagram illustrating a configuration example of the system control unit control unit 98 of the system control unit 8.
As shown in the figure, the system control unit control unit 98 includes a power control unit 210 that controls power supplied from the power supply unit 9 to other units via the power line 11, and the image reading and image formation. And a processing unit 220 that performs a predetermined process. For example, the processing unit 220 performs processing such as feeding paper for reading and moving a lamp at a predetermined timing.

  In addition, the system control unit control unit 98 includes a communication unit 230 that controls communication with other units via the in-machine LAN 10 and an interrupt detection unit 240 that detects interrupts received through the in-machine LAN 10 or the external LAN 12. Yes. More specifically, the interrupt detection unit 240 may be, for example, a signal from the document detection sensor 130 of the image reading unit 3 transmitted via the in-machine LAN 10, a signal from the start button 180 of the system control unit 8, or power saving of the UI unit 4. A signal from the button 140 is received as an interrupt signal. Further, the interrupt detection unit 240 accepts a print instruction transmitted via the external LAN 12 as an interrupt signal.

FIG. 4 is a diagram showing the state of the power supply mode transition when the copying process is performed.
Here, “power on (ON)” shown in the figure is a state in which, for example, the entire switch (main switch) of the image forming apparatus 1 is turned on, and each unit starts an initialization process when the power is turned on. .
The “Ready” state shown in the figure is a state in which various image processing operations such as printing, copying, facsimile, and scanner can be executed as a whole system, and the initialization process of each unit is completed. State. Each of the image forming unit 2, the image reading unit 3, the FAX unit 5, and the UI unit 4 performs an initialization process. After the initialization process is completed, the initialization process is completed via the in-machine LAN 10. Broadcast a command indicating that it is ready. The system control unit 8 recognizes that each unit is in a ready state, and provides information indicating that “the image forming apparatus 1 is in a ready state” to an external device, for example, as necessary. In the “ready state”, when initialization is completed, a unit that does not need to operate immediately reduces the power supply level to a lower level by its own judgment and saves power. Units that do not need to be operated after that will maintain a good power-saving state by actively deactivating themselves.
Note that “broadcast” refers to transmitting information to which commands are attached to all units connected to the in-machine LAN 10 via the in-machine LAN 10.

Further, the “power saving mode” shown in FIG. 6 is a power saving state that can be recognized by the user. For example, when there is no input of image information after a predetermined period of time has elapsed after entering the ready state, the UI unit 4 and system control are performed. This is a state where the unit 8 has shifted to the power saving mode. The illumination on the panel of the UI unit 4 is also turned off (LED off (OFF) state), and the system control unit control unit 98 of the system control unit 8 is off (CPU off (OFF) state). However, in the system control unit 8, the function unit (ASIC) that monitors the reception of print job data from an external device via the external LAN 12 and the operation input from the user in the UI unit 4 is also turned on even in the power saving mode. Yes. Then, the ASIC shifts the system control unit control unit 98 from the CPU off state to the 5V on state when receiving print job data or an operation input from the user.
The power off (OFF) state of each unit other than the system control unit 8 is a state that can be activated by an external interrupt.

  As shown in FIG. 4, after shifting to the power saving mode, when the document is placed on the document feeder (ADF) 31 provided in the image reading unit 3 or the document table cover 32 covering the platen glass is opened and closed ( Document preparation detection), the document detection sensor 130 outputs a signal. Thus, when the image reading control unit 93 receives a signal from the document detection sensor 130, the image reading unit 3 shifts to an ON state of 5V. Then, the image reading control unit 93 of the image reading unit 3 broadcasts a command (original detection command) indicating that the installation of the original is detected to other units via the in-machine LAN 10.

Each unit that receives the document detection command as a broadcast from the in-machine LAN 10 sets the power mode by its own judgment.
Specifically, when the system control unit 8 receives a document detection command from the image reading unit 3, the ASIC provided in the system control unit 8 changes the system control unit control unit 98 from the CPU off state to 5V. Transition to the on state. Thereby, the system control unit 8 prepares for the user to press the copy start button (start button 180) and start the copy operation.

  Here, even if the UI unit 4 receives a document detection command from the image reading unit 3, the UI unit 4 remains in a power-off state. That is, the UI unit 4 does not shift from the power off state to the 24 V on state (see the broken line in the figure). As a result, initialization of the UI unit 4 that requires time is not performed, the time for initialization (for example, 3 seconds) is omitted, and early copying can be performed.

  The FAX unit 5 does not need to perform an operation corresponding to the document detection command from the image reading unit 3. Therefore, the FAX unit 5 maintains the power mode in the power off state.

  Although not shown in FIG. 4, the hard disk drive 170 of the memory unit 7 does not operate. That is, since it is in the power saving mode, the copy process is performed using the nonvolatile memory 177 on the assumption that no other process is performed. More specifically, since so-called bypass copying is performed without using the hard disk drive 170, it is not necessary to energize the hard disk drive 170, and no data is stored in the hard disk drive 170, so the printing time is shortened. Further, the power source of the hard disk drive 170 continues to be energized for a certain time (for example, 15 minutes) after being energized due to the influence on the life of the hard disk drive 170. For this reason, it is necessary to energize the hard disk drive 170 even when printing one sheet, and it is necessary to energize for a certain period of time. In this regard, in this embodiment, since the bypass copy method is adopted, the hard disk drive 170 is not energized, so the hard disk drive 170 is not frequently turned on / off, and the life of the hard disk drive 170 is shortened. It is prevented.

  When the image forming apparatus 1 includes a post-processing device (not shown), such a post-processing device does not need to perform an operation corresponding to a document detection command from the image reading unit 3. For example, when the power saving button 140 is pressed by the user, the power mode of the post-processing device is controlled to transition from the power off state to the 24 V on state.

  The image forming unit 2 does not need to perform an operation corresponding to the document detection command when the document detection command is received from the image reading unit 3. Therefore, the image forming unit 2 maintains the power mode in the power off state. Although not shown in FIG. 4, the same applies to the paper feed unit 6.

  Subsequently, when the user presses the start button 180 of the system control unit 8, the start button 180 outputs a signal to the system control unit control unit 98. Receiving the signal, the system control unit controller 98 shifts the power mode from the 5V on state to the 24V on state. Thereby, the mechanism part of the system control unit 8 is turned on. Then, a command (job start command) indicating that the copying process (job) is started is broadcast to other units via the in-machine LAN 10.

  When the image forming unit 2 receives the job start command from the system control unit 8, the image forming unit 2 shifts the power mode from the power-off state to the 24V on-state. As a result, a mechanism unit (not shown) of the image forming unit 2 is turned on to start an image formation preparation operation (start job), and a wake-up process for setting the fixing unit included in the mechanism unit to a fixable state is started. . When the wake-up process of the fixing unit is completed, the image formation control unit 92 broadcasts a command (wake-up completion notification command) for notifying the completion of the wake-up process to other units via the in-machine LAN 10.

When the image reading unit 3 receives a job start command from the system control unit 8, the image reading control unit 93 shifts the image reading unit 3 from the 5V on state to the 24V on state. As a result, the mechanism of the image reading unit 3 is turned on. Then, it waits for a wake-up completion notification command from the image forming unit 2.
When the image reading unit 3 receives the wake-up completion notification command from the image forming unit 2, the image reading control unit 93 starts reading the document. Further, the image reading control unit 93 broadcasts a command (document reading start command) indicating that reading of a document is started to other units via the in-machine LAN 10.

When the system control unit 8 receives a document reading start command from the image reading unit 3, the system control unit control unit 98 starts a process for storing the image data transmitted from the image reading unit 3. After the accumulation process is started, when image data having a predetermined data amount is accumulated, the system control unit control unit 98 transfers the accumulated image data to the image forming unit 2.
Thereby, the image forming unit 2 starts image formation (printing) based on the image data acquired from the system control unit 8.
Although not shown in FIG. 4, the paper supply unit 6 also starts the operation of supplying paper through the same process.
In this case, the image forming control unit 92 and the paper feeding control unit 96 of the paper feeding unit 6 send a command (image forming start notification command) for notifying that the image forming operation has started to other units via the in-machine LAN 10. Broadcast to.

  Here, in the image forming unit 2 and the paper feeding unit 6 that have started printing, a control unit (various control units 30) provided in the image forming unit 2 and a paper feeding unit control unit provided in the paper feeding unit 6 96 determines the power supply / stop state of each device constituting the image forming unit 2 and each device constituting the paper feed unit 6 and the control unit itself, and supplies / stops power to each device and the control unit itself. You may comprise so that control of this may be implemented by itself.

  Returning to the image reading unit 3, when the image reading unit 3 completes the reading of the document, the image reading control unit 93 changes the power mode of the image reading unit 3 from the 24V on state to the 5V on state (the broken line in FIG. (Refer to Fig. 1). That is, in this embodiment, the power to the mechanism unit of the image reading unit 3 is turned off, and the operation state of the image reading control unit 93 is maintained for a predetermined time, thereby waiting for the next document reading. The control of maintaining the state is not performed. For this reason, power consumption is reduced. The image reading control unit 93 broadcasts a command (reading completion notification command) notifying that the reading of the document is completed to other units via the in-machine LAN 10.

  When the system control unit 8 receives the reading completion notification command from the image reading unit 3, the system control unit control unit 98 recognizes the reading completion notification command from the image reading unit 3 and receives an image from the image reading unit 3. Complete the data accumulation process. However, the system control unit 8 needs to continue the process of transferring the accumulated image data to the image forming unit 2 thereafter. In addition, it is recognized by the image formation start notification command from the image forming unit 2 and the paper feeding unit 6 that the image forming operation is being performed in the image forming unit 2 and the paper feeding unit 6. Therefore, the system control unit control unit 98 maintains the 24V on state in order to perform transfer processing of accumulated image data, operation monitoring processing of the entire image forming apparatus 1, and the like.

When the image forming unit 2 completes printing, the image forming control unit 92 shifts the power mode of the image forming unit 2 from the 24V on state to the power off state without passing through the 5V on state. That is, in the present embodiment, the power to the mechanism unit of the image forming unit 2 is turned off, and the operation state of the image forming control unit 92 is maintained for a predetermined time. No control is performed to maintain a state of waiting for input of various image data including image data from 3. As a result, the power to the image formation control unit 92 is also turned off, and the image forming unit 2 shifts to the power-off state.
Note that the image formation control unit 92 broadcasts a command (image formation completion notification command) notifying that printing has been completed to other units via the in-machine LAN 10.
Although not shown in FIG. 4, the same applies to the paper feed unit 6.

  When the system control unit 8 receives the image formation completion notification command from the image forming unit 2, the system control unit control unit 98 maintains the 24V on state for a predetermined time, and then the system control unit 8 The power mode is shifted from the 24V on state to the power off state without going through the 5V on state. That is, the system control unit control unit 98 shifts to the CPU off state and sets the power saving mode. In the present embodiment, the power to the mechanism unit of the system control unit 8 is turned off, and the operating state of the system control unit control unit 98 is maintained for a predetermined time. Control is not performed to maintain a state of waiting for input of a broadcast command.

5 and 6 are flowcharts showing a processing procedure in the power saving mode.
In the flowcharts shown in both figures, during the power saving mode (step 101), when the interrupt detection unit 240 of the image reading control unit 93 or the system control unit control unit 98 detects an interrupt signal via the communication unit 230 (step 102), Make a decision on the interrupt. That is, the image reading control unit 93 determines whether or not a sheet is set on the document feeder 31 of the image reading unit 3 (step 103). This determination is made based on the output signal of the document detection sensor 130. If it is determined that the sheet is set (Yes in Step 103), the image reading control unit 93 returns the image reading unit 3 from the power-off state (Step 104). In other words, the image reading unit 3 returns from the power saving mode with the sheet setting as a trigger.

  Then, the system control unit control unit 98 determines whether or not the start button 180 has been pressed (step 105). If it is determined that the start button 180 has been pressed (Yes in step 105), the copying process is executed under the control of the processing unit 220 of the system control unit control unit 98 (step 106). After the copying process is completed, the system control unit control unit 98 shifts to the power saving mode via the power control unit 210 (step 107). As a result, the series of processes is completed.

If it is determined that the start button 180 is not pressed (No in step 105), it is determined whether the initial setting (default setting) of the image forming apparatus 1 is a facsimile or scanning. More specifically, the system control unit control unit 98 checks the initial setting information stored in the non-volatile memory 177 of the memory unit 7 and determines whether the setting is a facsimile setting (step 108).
When the system control unit control unit 98 determines that the facsimile setting is made (Yes in Step 108), the system control unit control unit 98 returns the UI unit 4 by facsimile (Step 109). More specifically, in the case of facsimile transmission, paper is set in the document feeder 31 as in the case of copying. In the case of facsimile transmission, since it is necessary to input a destination, the UI unit 4 is returned to display the destination. When the user operates the UI unit 4 (step 110), facsimile processing is executed (step 111). After the facsimile process is executed, the process proceeds to step 107.

  On the other hand, if the system control unit control unit 98 determines that the scan setting has been made (No in step 108), the system control unit control unit 98 returns the UI unit 4 by scanning (step 112), and proceeds to step 110. More specifically, in the case of scanning, paper is set and a button or key other than the start button is pressed.

  If it is determined that no paper is set after the interruption is detected (No in step 103), the system control unit control unit 98 determines the content of the instructed process (step 113). That is, if it is determined that the operation is a panel operation of the UI unit 4, the UI unit 4 is restored on the menu screen (step 114), and the process proceeds to step 110. If it is determined that data is received, the image forming unit 2 is returned as a print instruction via the external LAN 12 (step 115), and then the process proceeds to step 111. If it is determined that the power saving button 140 has been pressed, all the units are completely restored from the power saving mode (step 116). After the complete recovery, a transition to the power saving mode is made by the elapse of a predetermined time (for example, 15 seconds) or the operation of the power saving button 140 (step 117), and the series of processing ends.

  As described above, in the image forming apparatus 1 according to the present embodiment, when it is detected that a document is set on the image reading unit 3 and the start button 180 is pressed in the power saving mode, it is determined that an instruction for copying processing has been issued. Then, control is performed so that only the unit necessary for copying is restored. When the copying process is completed, the unit restored for the copying process is immediately turned off and returned to the power saving mode. For this reason, it is possible to reduce the power consumption accompanying the copying process in the power saving mode and to start the copying process quickly.

1 is a diagram illustrating an example of an overall configuration of an image forming apparatus to which the exemplary embodiment is applied. FIG. 2 is a diagram for describing a functional configuration of the image forming apparatus illustrated in FIG. 1. It is a block diagram explaining the structural example of the system control unit control part of a system control unit. FIG. 6 is a diagram showing a state of power supply mode transition when performing copy processing. It is a flowchart which shows the process sequence in power saving mode. It is a flowchart which shows the process sequence in power saving mode.

DESCRIPTION OF SYMBOLS 1 ... Image forming apparatus, 2 ... Image forming unit, 3 ... Image reading unit, 31 ... Document feeder, 32 ... Original plate cover, 7 ... Memory unit, 8 ... System control unit, 93 ... Image reading control part, 98 ... System control unit control unit 130 ... Document detection sensor 140 ... Power saving button 170 ... Hard disk drive 177 ... Non-volatile memory 180 ... Start button

Claims (8)

A plurality of functions including an image reading function for reading an image of a document and an image forming function for forming an image can be realized, and the first function is in a state where any one of the plurality of functions is exhibited. An apparatus main body having a power state and a second power state in a state where the function can be performed and a third power state where the power consumption of the function is not present or lower than in the case of the second power state;
A document preparation detection means for outputting a signal upon detection of document preparation by the user;
An operation unit that outputs a signal for exerting the image forming function when operated by a user;
When the plurality of functions are in the third power state, the image reading function and the image forming function among the plurality of functions are received by receiving signals from the document preparation detection unit and the operation unit. Control means for controlling to start copying of the original detected by the original preparation detection means in the power state of
An image forming apparatus including:   The control unit controls the image reading function and the image forming function to transition to the third power state without passing through the second power state when copying of the document is completed. The image forming apparatus according to claim 1. The apparatus main body is configured to be able to realize a display function for displaying contents notified to a user as the plurality of functions,
Even if the control means receives signals from the document preparation detection means and the operation unit when the display function is in the third power state, the control means maintains the display function in the first power state and the second power state. The image forming apparatus according to claim 1, wherein the image forming apparatus is not in a state. The apparatus main body has a storage function of storing data using a first storage medium having a rotation mechanism and rotating by the rotation mechanism and a second storage medium not having the rotation function as the plurality of functions. Prepared,
When the control unit receives signals from the document preparation detection unit and the operation unit when the storage function is in the third power state, the control unit does not use the first storage medium, and the second storage medium. 4. The image forming apparatus according to claim 1, wherein the document is copied using an image forming apparatus. 5. A plurality of functions including an image reading function for reading an image of a document and an image forming function for forming an image can be realized, and the first function is in a state where any one of the plurality of functions is exhibited. A computer provided in an image forming apparatus having a power state, a second power state in a state where the function can be performed, and a third power state where the power consumption of the function is not present or lower than in the second power state In addition,
A first reception function for receiving a signal from a document preparation detection unit that outputs a signal when the preparation of the document by the user is detected;
A second reception function for receiving the signal from the operation unit that outputs a signal for exhibiting the image forming function when operated by a user;
When the signals are received by the first reception function and the second reception function when the plurality of functions are in the third power state, the image reading function and the image forming function are selected from the plurality of functions. A control function for controlling to start copying of the document detected by the document preparation detection unit in the first power state;
A program that realizes   The control function controls the image reading function and the image forming function to transition to the third power state without passing through the second power state when copying of the document is completed. The program according to claim 5. The image forming apparatus is configured to be capable of realizing a display function for displaying contents notified to a user as the plurality of functions.
Even if the control function accepts the signal by the first acceptance function and the second acceptance function when the display function is in the third power state, the display function is not changed to the first power state and the The program according to claim 5 or 6, wherein the second power state is not set. The image forming apparatus stores, as the plurality of functions, data using a first storage medium having a rotation mechanism and rotating by the rotation mechanism and a second storage medium not having the rotation function With
When the control function receives the signal by the first reception function and the second reception function when the storage function is in the third power state, the control function does not use the first storage medium. The program according to any one of claims 5 to 7, wherein the document is copied using two storage media.

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