JP2010123080A - Image formation system, printer apparatus, and instruction transmitter - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce power to be consumed in a power saving state in a printer apparatus constituting an image formation system. <P>SOLUTION: The image formation system has: an image forming apparatus which forms an image according to an image formation instruction (printing job); a terminal device which transmits the image formation instruction to the image forming apparatus; and a network which performs communication between the image forming apparatus and the terminal, wherein the image forming apparatus requests transmission of the image formation instruction to the terminal via the network when input of the image formation instruction by a user is accepted. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to an image forming system, a printer device, and a command transmission device.

For example, in a printer apparatus that constitutes an image forming system, a power saving state that suppresses power consumption is usually set according to the reception status of image data from a communication unit such as a network. However, it is difficult to predict the timing at which image data or the like is transmitted from the communication means. For this reason, in the printer apparatus, even if the information processing unit that processes the image data or the like shifts to a power saving state that stops the operation, the communication function unit that receives the image data or the like from the communication unit is maintained in the operating state. Configured to be
For example, in Patent Document 1, a sub CPU that consumes less power than the main CPU is provided as a control unit such as a network interface. In the energy saving mode (power saving state), the main CPU is turned off and only the sub CPU is energized. A technique for issuing a return trigger from a sub CPU to a main CPU in response to data reception from a network interface or the like is described.

JP 2004-5029 A

Here, generally, maintaining the operating state of the communication unit that receives image data or the like from the communication means increases the power consumed by the printer device that has shifted to the power saving state.
SUMMARY An advantage of some aspects of the invention is that it reduces power consumed in a power saving state in a printer device constituting an image forming system.

  According to the first aspect of the present invention, there is provided a printer device that forms an image according to an image formation command, a command transmission device that transmits the image formation command to the printer device, and communication between the printer device and the command transmission device. And a communication unit configured to accept the input of an image formation instruction by an operator, and when receiving the input of the image formation instruction by the reception unit, An image forming system comprising: command requesting means for requesting transmission of the image forming command via the communication means.

According to a second aspect of the present invention, the command requesting unit is supplied with power after receiving the input of the image forming instruction in the receiving unit, and is supplied with power after completion of image formation in accordance with the image forming command. The image forming system according to claim 1, wherein the image forming system is stopped.
According to a third aspect of the present invention, when the command requesting unit does not transmit the image forming command from the command transmitting device after power is supplied after receiving the input of the image forming command by the receiving unit. 2. The image forming system according to claim 1, wherein the supply of electric power is stopped.
According to a fourth aspect of the present invention, the image processing unit further includes an image processing unit that performs image processing according to the image forming command, and the image processing unit is configured to supply power in response to a stop of power supply to the command requesting unit. The image forming system according to claim 1, wherein the image forming system is stopped.

  The invention according to claim 5 is connected to an image forming unit that forms an image in accordance with an image forming command, a receiving unit that receives an instruction input for instructing image formation by the operator using the image forming unit, and a communication unit. And a command requesting unit for requesting transmission of the image forming command to an external device connected to the communication unit when the receiving unit receives the instruction input. is there.

According to a sixth aspect of the present invention, the command requesting unit is supplied with electric power after the instruction input is received by the receiving unit, and the supply of electric power is stopped after completion of image formation in accordance with the image forming command. 6. A printer apparatus according to claim 5, wherein
According to a seventh aspect of the present invention, the command requesting unit supplies power when the image forming command is not transmitted from the external device after power is supplied after receiving the instruction input by the receiving unit. The printer apparatus according to claim 5, wherein the printer apparatus is stopped.
The invention according to claim 8 further includes image processing means for performing image processing in accordance with the image forming command, wherein the image processing means is supplied with power in response to a stop of power supply to the command requesting means. The printer apparatus according to claim 5, wherein the printer apparatus is stopped.

According to a ninth aspect of the present invention, there is provided a command generation unit that generates an image formation command for a printer that forms an image according to an image formation command, and a command storage that stores the image formation command generated by the command generation unit. And the image forming command stored in the command storage means to the printer device when there is a transmission request for the image forming command from the printer device connected to the communication device and the communication device. A command transmission device comprising a transmission means for transmitting.
According to a tenth aspect of the present invention, the transmission unit does not transmit the image formation command stored in the command storage unit to the printer device when there is no transmission request for the image formation command from the printer device. The command transmission device according to claim 9.

According to the first aspect of the present invention, compared with a case where the present invention is not adopted, it is possible to reduce the power consumed in the power saving state in the printer device constituting the image forming system.
According to the second aspect of the present invention, it is possible to suppress an increase in power consumption in the printer apparatus caused by receiving a signal transmitted via the communication means, compared to a case where the present invention is not adopted. .
According to the third aspect of the present invention, compared to the case where the present invention is not adopted, it is possible to suppress an increase in power consumption in the printer device caused by continuing the operation state without receiving the image forming command. .
According to the fourth aspect of the present invention, it is possible to suppress an unnecessary increase in the power consumption in the command processing means for processing the image forming command, as compared with the case where the present invention is not adopted.

According to the fifth aspect of the present invention, compared with a case where the present invention is not adopted, it is possible to reduce the power consumed in the power saving state in the printer device constituting the image forming system.
According to the sixth aspect of the present invention, an increase in power consumption in the printer apparatus due to receiving a signal transmitted via the communication means can be suppressed compared to a case where the present invention is not adopted. .
According to the seventh aspect of the present invention, compared with the case where the present invention is not adopted, it is possible to suppress an increase in power consumption in the printer device caused by continuing the operation state without receiving the image forming command. .
According to the eighth aspect of the present invention, it is possible to suppress an unnecessary increase in power consumption in the command processing means for processing the image forming command, as compared with the case where the present invention is not adopted.

According to the ninth aspect of the present invention, compared with the case where the present invention is not adopted, it is possible to reduce the power consumed in the power saving state in the printer device constituting the image forming system together with the command transmission device.
According to the tenth aspect of the present invention, the printer device does not always operate, and the power consumption in the printer device can be reduced 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.
<Description of image forming system>
FIG. 1 is a diagram illustrating a configuration example of an image forming system 1 according to the present embodiment. In the image forming system 1 illustrated in FIG. 1, for example, a command transmission device installed in a work space (for example, a desk) of a user (operator) and a terminal device 2 which is an example of an external device, and the terminal device 2 An image forming apparatus 3 as an example of a printer apparatus that forms an image on a sheet based on image data that has been created / stored is a LAN (Local Area Network), WAN (Wide Area Network), which is an example of a communication unit, It is connected to be able to communicate bidirectionally via a network 4 such as the Internet. The communication means may include a communication line such as a telephone line or a satellite communication line (for example, a spatial transmission line in digital satellite broadcasting).
Note that, normally, a plurality of terminal devices 2 and a plurality of image forming devices 3 can be connected on the network 4, but in FIG. 1, one terminal device 2 and one image are respectively shown as a part thereof. A configuration in which the forming apparatus 3 is connected is shown.

<Description of terminal device>
The terminal device 2 will be described.
The terminal device 2 connected to the network 4 uses, for example, a personal computer (PC), and creates and stores image data including documents, graphics, graphics, photographs, and the like.
FIG. 2 is a block diagram illustrating the configuration of the terminal device 2 according to the present embodiment. As illustrated in FIG. 2, the terminal device 2 includes a control unit 20 that performs operation control of the entire terminal device 2 and various types of information processing, an image data creation unit 21 that creates image data according to predetermined application software, and a user. Is provided with a user interface (UI) unit 22 for receiving an instruction input and displaying various information to the user. The terminal device 2 communicates with an external storage unit 23 in which programs, various data, and the like are stored and the network 4, and a communication unit as an example of a transmission unit that transmits image data (information) to the image forming device 3. 24. Furthermore, the terminal device 2 includes a power supply unit 25 that supplies power to each component of the terminal device 2 via the power line 27, and a print job storage unit as an example of an instruction storage unit that stores a print job (see later stage). 26.
The control unit 20, image data creation unit 21, UI unit 22, external storage unit 23, communication unit 24, power supply unit 25, and print job storage unit 26 are connected to a PCI (Peripheral Components Interconnect bus) bus 28. Yes. Accordingly, these components transmit and receive signals to and from each other via the PCI bus 28.

  Here, the above-described components of the terminal device 2 are realized by cooperation of software and hardware resources. Specifically, in the external storage unit 23, an operating system for controlling each component of the terminal device 2, application software for executing a specific function of each component in cooperation with the operating system, and an image A printer driver program for generating an image formation command (print command: hereinafter referred to as “print job”) to the image forming apparatus 3 related to image data created by the data creation unit 21 or image data stored in the external storage unit 23 Etc. are stored. Then, a CPU (not shown) of the terminal device 2 reads these programs from the external storage unit 23 to the main storage device (for example, RAM), and each component such as the control unit 20, the image data creation unit 21, and the communication unit 24 is provided. Perform processing to realize the function of.

<Description of Print Job Generation Processing on Terminal Device>
When a user inputs a print instruction to the UI unit 22 in the terminal device 2, the control unit 20 reads a printer driver program from the external storage unit 23. Then, the control unit 20 as an example of an instruction generation unit that generates an image formation instruction (print job) is stored in the image data generated by the image data generation unit 21 or the external storage unit 23 according to the printer driver program. A print job generation process related to image data or the like is executed. When generating a print job, the control unit 20 of the present embodiment transfers the generated print job to a print job storage unit 26 as an example of an instruction storage unit, and stores the print job in the print job storage unit 26.

<Description of print job transmission processing in communication unit of terminal device>
The communication unit 24 of the terminal device 2 is an example of a transmission unit, and includes a communication control unit 211 that controls data communication between the control unit 20 and the network 4, and data communication between the communication control unit 211 and the network 4. A network interface (NET_I / F) unit 212 that performs transmission / reception, and a PCI interface (PCI_I / F) unit 213 that performs transmission / reception of data between the communication control unit 211 and the PCI bus 28 are provided.

In the terminal device 2, when the NET_I / F unit 212 of the communication unit 24 receives a print job transmission request (hereinafter, a print job transmission request) from the image forming apparatus 3, the communication control unit 211 transmits the received print job transmission request to the PCI_I. The data is transferred from the / F unit 213 to the control unit 20. When acquiring the print job transmission request, the control unit 20 determines whether or not the print job is stored in the print job storage unit 26. When the print job is stored in the print job storage unit 26, the control unit 20 sends the print job stored in the print job storage unit 26 in response to a print job transmission request from the image forming apparatus 3. Control is performed so as to transmit from the communication unit 24 to the image forming apparatus 3. On the other hand, when the print job is not stored in the print job storage unit 26, the control unit 20 ends the process corresponding to the print job transmission request.
That is, when the control unit 20 generates a print job, the control unit 20 temporarily stores the generated print job in the print job storage unit 26. When the communication unit 24 receives a print job transmission request from the image forming apparatus 3, the print job stored in the print job storage unit 26 is transmitted to the image forming apparatus 3.

  In the terminal device 2 of the present embodiment, the generated print job is set to be stored in the print job storage unit 26, but may be set to be stored in the external storage unit 23. In addition, the print job storage unit 26 may be configured as a part of the external storage unit 23. Further, the print job storage unit 26 may be provided in the communication unit 24.

<Description of Image Forming Apparatus>
Next, the image forming apparatus 3 will be described.
The image forming apparatus 3 according to the present embodiment acquires a print job that is an object of image formation from the terminal device 2 when the user issues a print instruction (image formation instruction) to the image forming apparatus 3 to form an image. Execute the process. That is, during a period when there is no print instruction from the user to the image forming apparatus 3, the image forming apparatus 3 is set with a power saving state in which power consumption is reduced. Thereby, acquisition of a signal (packet) transmitted via the network 4 including a print job from the terminal device 2 is stopped. Thereafter, when the user instructs the image forming apparatus 3 to print, the image forming apparatus 3 returns from the power saving state to the operable state (operating state). Then, a print job transmission request is transmitted from the image forming apparatus 3 to the terminal apparatus 2 that holds (stores) the print job. When the image forming apparatus 3 acquires a print job from the terminal device 2, the image forming apparatus 3 executes an image forming process related to the print job. When the image forming process is completed, or when a print job is not transmitted from the terminal device 2, the power saving state is resumed if no print instruction is input from the user even after a predetermined standby time has elapsed. Is set. Accordingly, the image forming apparatus 3 stops acquiring packets via the network 4 including the print job from the terminal device 2.
As described above, in the image forming apparatus 3, when a print job transmission request is made to the terminal apparatus 2 from the start of a print instruction input by the user, and when a print job is acquired from the terminal apparatus 2, The operable state is set in a period until the end of the image forming process for the acquired print job or a period until a predetermined time after the end of the image forming process elapses. On the other hand, the power saving state is set in a period other than the period in which the operable state is set. In the power saving state, the operation of the component that communicates with the network 4 is also stopped, and acquisition of various packets including a print job transmitted via the network 4 is stopped.

Subsequently, the configuration of the image forming apparatus 3 of the present embodiment that performs the above-described operation will be described.
FIG. 3 is a block diagram illustrating the configuration of the image forming apparatus 3 according to the present embodiment. As shown in FIG. 3, the image forming apparatus 3 communicates with the control unit 30 as an example of an image processing unit that performs various kinds of information processing including operation control of the entire image forming apparatus 3 and image processing, and the network 4. A communication unit 31 is provided for transmitting and receiving information. The image forming apparatus 3 includes a user interface (UI) having an instruction input receiving unit 331 as an example of a receiving unit that receives an instruction input such as an image forming instruction from a user and a display unit 332 that displays various types of information to the user. A portion 33 is provided.
Further, the image forming apparatus 3 includes an image output unit 32 as an example of an image forming unit that forms an image on a sheet based on image data included in a print job transmitted from the terminal device 2 via the network 4. ing. As the image output unit 32, for example, an electrophotographic image forming engine is used.
In addition, the image forming apparatus 3 includes various programs such as an operating system for controlling each component of the image forming apparatus 3 and application software that executes a specific function of each component in cooperation with the operating system. And an external storage unit 34 for storing various data such as image data.

Further, the image forming apparatus 3 converts, for example, 100 V power supplied from a commercial power source into a predetermined voltage (for example, 24 V, 12 V, 5 V, 3 V) and supplies it to each component as an example of a power supply unit. The power supply unit 35 is provided. The power supply unit 35 includes a first power line 351 for supplying control system power of, for example, a voltage of 5 V or 3 V to the control unit 30 or the communication unit 31, and a drive system of, for example, a voltage of 24 V or 12 V to the image output unit 32 or the like. A second power line 352 that supplies power and a third power line 353 that supplies control system power to the instruction input receiving unit 331 of the UI unit 33 are connected.
Then, the power supply unit 35 sets supply or stop of control system power to the first power line 351 according to the operation mode (operation state) of the image forming apparatus 3 set by the control unit 30, and the second Supply or stop of drive system power to the power line 352 is set. On the other hand, the power supply unit 35 constantly supplies control system power to the third power line 353.

Meanwhile, the control unit 30, the communication unit 31, the image output unit 32, the UI unit 33, the external storage unit 34, and the power supply unit 35 disposed in the image forming apparatus 3 are connected to the PCI bus 36. Accordingly, these components transmit and receive signals to and from each other via the PCI bus 36.
The above-described components of the image forming apparatus 3 are realized by cooperation of software and hardware resources. Specifically, a CPU (not shown) of the image forming apparatus 3 reads various programs such as an operating system and application software from the external storage unit 34 into a main storage device (for example, RAM), and controls the control unit 30, the communication unit 31, And the process which implement | achieves the function of each structure part, such as UI part 33, is performed.

<Description of Function of Control Unit of Image Forming Apparatus>
Next, functions of the control unit 30 of the image forming apparatus 3 will be described.
The control unit 30 of the image forming apparatus 3 first has a function of processing a print job transmitted to the image forming apparatus 3 itself via the network 4. That is, the control unit 30 performs processing (image processing) on the image data included in the print job according to the print job transmitted via the network 4, and transfers the processed image data to the image output unit 32.

The control unit 30 also has a function of controlling the operation mode (operation state) of the image forming apparatus 3 in accordance with the input status of the print instruction from the UI unit 33 by the user. FIG. 4 is a diagram for explaining an operation mode set in the image forming apparatus 3 of the present embodiment. As shown in FIG. 4, each image forming apparatus 3 has “image forming operation mode” and “standby mode”, which are examples of operating states, and “sleep mode”, which is an example of power saving states, as operation modes. And are set.
The image forming operation mode is an operation state that is set when a print instruction is input from the user in the UI unit 33 and the image output operation on the paper relating to the image data is executed in the image output unit 32. The standby mode is an operation state in which the UI unit 33 immediately shifts to the image forming operation mode in response to a print instruction input from the user. In the image forming operation mode or a standby mode equivalent thereto, the control system power is supplied from the power supply unit 35 to the components that perform operations related to control and processing in the image forming apparatus 3 via the first power line 351, and the second power line 352. The drive system power is supplied to the components that perform operations related to image formation in the image forming apparatus 3 via the control unit.

  The sleep mode is an operation state that is set when there is no print instruction input from the UI unit 33 even after a standby time T of a predetermined time length after the standby mode is set, for example. In the sleep mode, only the instruction input receiving unit 331 of the UI unit 33 continues to operate, and the control unit 30, the communication unit 31, the display unit 332 of the UI unit 33, and the constituent units such as the image output unit 32 stop operating. To do. That is, in the sleep mode, control system power is supplied from the power supply unit 35 to the instruction input reception unit 331 via the third power line 353. In addition, the control system power from the power supply unit 35 to the components that perform operations related to control and processing in the image forming apparatus 3 via the first power line 351 is stopped, and the inside of the image forming apparatus 3 via the second power line 352 is stopped. The driving system power to the components that perform the operation relating to image formation is stopped. Thereby, a high power saving effect is obtained in the sleep mode.

For example, when the print instruction is not input from the instruction input receiving unit 331 even after the standby time T after the standby mode is set, the control unit 30 outputs a sleep mode transition signal instructing the shift to the sleep mode. Generate. Here, the waiting time T includes “0”, and the sleep mode transition signal may be generated immediately after the standby mode is set.
On the other hand, when a print instruction is input from the instruction input receiving unit 331 with the sleep mode set, the power supply unit 35 starts supplying control system power from the first power line 351 to the control unit 30. . Thereby, the control unit 30 returns from the stopped state. Then, in response to the print instruction input from the instruction input receiving unit 331, the returned control unit 30 generates a sleep mode return signal that instructs to return from the sleep mode.

Then, the control unit 30 transmits the generated sleep mode transition signal or sleep mode return signal to the power supply unit 35 via the PCI bus 36. When the power supply unit 35 acquires the sleep mode transition signal from the control unit 30, the supply of control system power from the first power line 351 is stopped and the supply of drive system power from the second power line 352 is stopped. As a result, the components other than the instruction input receiving unit 331 stop operating.
When the power supply unit 35 acquires the sleep mode return signal from the control unit 30, the control system power supply from the first power line 351 is started and the drive system power supply from the second power line 352 is started. To do. Thereby, the components related to the image forming process such as the control unit 30, the communication unit 31, and the image output unit 32 are set in an operable state (operating state).

<Description of Communication Unit of Image Forming Apparatus>
Next, the communication unit 31 of the image forming apparatus 3 will be described.
The communication unit 31 of the image forming apparatus 3 performs data communication with the network 4 when the image forming operation mode and the standby mode are set. As shown in FIG. 3, the communication unit 31 controls the data communication between the control unit 30 and the network 4, and transmits and receives data between the communication control unit 311 and the network 4. A network interface (NET_I / F) unit 312 to perform, and a PCI interface (PCI_I / F) unit 313 to transmit and receive data between the communication control unit 311 and the PCI bus 36 are provided.
In addition, the communication unit 31 stores address information that is an example of identification information of the terminal device 2 that is the acquisition destination of the print job when a print instruction is input from the user in the instruction input reception unit 331. Part 314 is provided.

  The address information storage unit 314 stores address information of one or a plurality of terminal devices 2 connected to, for example, the network 4 that is a target (print job acquisition destination) that requests transmission of a print job. As a specific example of the method for setting the address information in the address information storage unit 314, there is a method in which the user inputs to the address information storage unit 314 using the instruction input reception unit 331. Further, there is a method in which the communication control unit 311 acquires address information from one or a plurality of terminal devices 2 connected to the network 4 and stores the address information in the address information storage unit 314, for example. Further, there is a method in which the terminal device 2 registers in the address information storage unit 314 via the network 4. In addition, there are various methods such as a method of storing the address information of the terminal device 2 in a server (not shown) connected to the network 4 and setting the address information in the address information storage unit 314 collectively from the server. A setting method or the like is used.

<Description of Image Forming Process Procedure in Image Forming System>
A procedure of image forming processing in the image forming system 1 of the present embodiment will be described.
In the image forming system 1 of the present embodiment, when a print job generated by the terminal device 2 is subjected to image forming processing by the image forming device 3, the user prints from the UI unit 33 (instruction input receiving unit 331). Enter instructions. As a result, the image forming apparatus 3 returns from the sleep mode to the standby mode. Then, the image forming apparatus 3 that has returned to the standby mode requests the terminal apparatus 2 to transmit a print job. In response to the print job transmission request from the image forming apparatus 3, the terminal apparatus 2 transmits the print job to the image forming apparatus 3. When the image forming apparatus 3 receives the print job from the terminal device 2, the image forming apparatus 3 shifts from the standby mode to the image forming operation mode, and executes image forming processing relating to the print job. Thereafter, when the image forming process is completed, the image forming apparatus 3 shifts from the image forming operation mode to the standby mode. If no print instruction is input after the standby time T has elapsed after the transition to the standby mode, the sleep mode is set again in the image forming apparatus 3.

  As a result, the image forming apparatus 3 excludes the period during which the transmission of the print job is requested and the period during which the image forming process related to the print job is executed, and in some cases, a predetermined period after the end of the image forming process. During the period, a sleep mode is set in which operations of the image forming function unit such as the image output unit 32 and the components such as the control unit 30 and the communication unit 31 are stopped except for the instruction input receiving unit 331 of the UI unit 33. . Therefore, the power consumption in the image forming apparatus 3 during the sleep mode setting period is only the power consumed mainly by the instruction input receiving unit 331. Further, since the operation of the communication unit 31 is stopped, acquisition of various packets including a print job transmitted via the network 4 is stopped.

In general, various packets other than a print job directed to the image forming apparatus itself are transmitted from the network to the image forming apparatus in the network environment even when the sleep mode is set. For example, from a network to an image forming apparatus, a network request is confirmed by using a packet requesting information regarding the setting state (status) of the image forming apparatus using SNMP (Simple Network Management Protocol) or by using a PING (Packet Internet Groper). A packet for requesting a response from the image forming apparatus to be transmitted is transmitted.
For this reason, in the conventional image forming apparatus in which the communication unit is always set to the operating state, even when the sleep mode is set, the CPU in the control unit performs the above processing in addition to the print job that needs to be processed. It was activated every time a packet that did not need to be sent. Therefore, in a network environment where the transmission frequency of packets that do not require processing is high, even if the sleep mode is set, the reduction amount of power consumption in the image forming apparatus is limited, and reduction of power consumption is difficult to promote. Was in the situation.

Therefore, in the image forming system 1 of the present embodiment, the supply of control system power to the communication unit 31 of the image forming apparatus 3 is stopped in the sleep mode. When the user inputs a print instruction from the UI unit 33, the image forming apparatus 3 is returned from the sleep mode to the standby mode or the image forming operation mode, and the control unit 30 or the communication unit 31 of the image forming apparatus 3 is returned. To supply control system power.
Therefore, in the image forming apparatus 3 constituting the image forming system 1, the operation of the communication unit 31 is stopped during the period when the sleep mode is set, so that the CPU in the control unit 30 is transmitted via the network 4. Activation by a packet that does not require processing is suppressed. In addition, the power consumed during the sleep mode setting period is mainly the power consumed by the instruction input reception unit 331. Thereby, a high power saving effect in the image forming apparatus 3 can be obtained.

FIG. 5 is a sequence diagram for explaining an example of the procedure of the image forming process performed in the image forming system 1 of the present embodiment.
As shown in FIG. 5, when the user inputs a print instruction from the UI unit 33 (instruction input receiving unit 331) of the image forming apparatus 3 (A), the image forming apparatus 3 set in the sleep mode is in the sleep mode. To standby mode (B). Then, the image forming apparatus 3 set with the standby mode requests the terminal apparatus 2 to transmit a print job (C).
Upon receiving the print job transmission request from the image forming apparatus 3, the terminal apparatus 2 transmits the print job to the image forming apparatus 3 (D).
The image forming apparatus 3 that has received the transmission of the print job from the terminal device 2 shifts to the image forming operation mode (E) and starts image forming processing relating to the print job (F). Then, when the image forming process is completed (G), the image forming apparatus 3 shifts the operation mode to the standby mode (H). After that, if there is no print instruction input from the UI unit 33 even after the predetermined standby time T has elapsed, the image forming apparatus 3 shifts the operation mode to the sleep mode (I).
However, if a print job is not transmitted to the image forming apparatus 3 in (D), (E) to (H) are not executed, and the UI unit 33 does not execute after a predetermined waiting time T. When there is no print instruction input, the image forming apparatus 3 shifts the operation mode to the sleep mode (J).

<Description of Image Forming Process in Image Forming Apparatus>
FIG. 6 is a flowchart illustrating an example of processing contents when the image forming apparatus 3 of the present embodiment executes image forming processing.
As shown in FIG. 6, in the image forming apparatus 3, the UI unit 33 (instruction input receiving unit 331) monitors the input of a print instruction from the user (step 101). If there is no print instruction input from the user, monitoring of the input of the print instruction is continued as it is (No in step 101).
On the other hand, when the UI unit 33 (instruction input receiving unit 331) receives a print instruction input from the user (Yes in Step 101), if the sleep mode is set in the image forming apparatus 3 (Yes in Step 102). The power supply unit 35 starts supplying control system power to the control unit 30 (step 103). Thereby, the control unit 30 returns from the stopped state and shifts the image forming apparatus 3 to the standby mode (step 104).
After the transition to the standby mode, the control unit 30 sends a print job transmission request from the communication unit 31 functioning as an instruction request unit to the terminal device 2 whose address information is stored in the address information storage unit 314 of the communication unit 31. Is transmitted (step 105).
On the other hand, when the sleep mode is not set in the image forming apparatus 3 (No in step 102), that is, when the standby mode or the image forming operation mode is already set in the image forming apparatus 3, the control unit 30 The communication unit 31 immediately transmits a print job transmission request to the terminal device 2 whose address information is stored in the address information storage unit 314 of the communication unit 31 (step 105).

When the terminal apparatus 2 transmits a print job in response to a print job transmission request from the image forming apparatus 3 (Yes in step 106), the communication unit 31 acquires the print job from the terminal apparatus 2, and acquires the acquired print job. The data is transferred to the control unit 30 (step 107).
The control unit 30 shifts the image forming apparatus 3 to the image forming operation mode (step 108). Further, the control unit 30 performs image processing on the transferred print job and transfers it to the image output unit 32 (step 109). Thereby, the image output unit 32 executes an image forming process related to the print job (step 110).
When the image forming process relating to the print job in the image output unit 32 is completed, the control unit 30 shifts the image forming apparatus 3 to the standby mode (step 111). At the same time as shifting to the standby mode, the control unit 30 starts measuring time (step 112).

  On the other hand, when the terminal apparatus 2 does not transmit a print job in response to a print job transmission request from the image forming apparatus 3 (No in step 106), the process proceeds to step 112, and the control unit 30 starts measuring time.

When the measured time has passed a predetermined standby time (Yes in Step 113), the control unit 30 causes the image forming apparatus 3 to enter the sleep mode (Step 114).
On the other hand, until the measured time exceeds a predetermined standby time (No in Step 113), the process returns to Step 101 and continues to monitor the input of the print instruction in the UI unit 33 (instruction input receiving unit 331). Will be.

  As described above, in the image forming apparatus 3 of the present embodiment, an operable state (operating state) is set when a user issues a print instruction to the image forming apparatus 3. Then, a print job to be subjected to image formation is acquired from the terminal device 2, and image formation processing is executed. The image forming apparatus 3 sets the power saving state again when the image forming process is completed or when a print job is not acquired from the terminal device 2. In the power saving state, the operation of the communication unit 31 is stopped, so that the CPU in the control unit 30 is suppressed from being activated by a packet that is not necessary to be transmitted via the network 4. In addition, power consumption in the power saving state is mainly power consumed by the instruction input receiving unit 331. Thereby, a high power saving effect in the image forming apparatus 3 can be obtained.

<Description of Print Job Transmission Processing at Terminal Device>
FIG. 7 is a flowchart illustrating an example of processing contents when the terminal apparatus 2 according to the present embodiment transmits a print job to the image forming apparatus 3.
As shown in FIG. 7, the terminal device 2 monitors a print job transmission request transmitted from the image forming apparatus 3 by the communication unit 24 (step 201). If no print job transmission request is transmitted from the image forming apparatus 3, the print job transmission request is continuously monitored (No in step 201).
On the other hand, when the communication unit 24 obtains a print job transmission request from the image forming apparatus 3 (Yes in step 201), the control unit 20 determines whether or not a print job for image formation is stored in the print job storage unit 26. Determination is made (step 202).

If the control unit 20 determines that the print job for image formation is stored in the print job storage unit 26 (Yes in Step 202), the control unit 20 transmits the print job stored in the print job storage unit 26 to the communication unit 24. (Step 203). Then, the print job is transmitted from the communication unit 24 to the image forming apparatus 3 (step 204).
On the other hand, when it is determined that the print job for forming an image is not stored in the print job storage unit 26 (No in step 202), the control unit 20 ends the process in response to the print job transmission request, Returning to 201, monitoring of the print job transmission request is continued.

  As described above, in the terminal device 2 according to the present embodiment, the print job stored in the print job storage unit 26 is sent to the image forming apparatus 3 in response to a request for transmission of the print job from the image forming apparatus 3. Send. On the other hand, when there is no print job transmission request from the image forming apparatus 3, the print job is not transmitted to the image forming apparatus 3 even if the print job is stored in the print job storage unit 26. As a result, the image forming apparatus 3 receives a print job from the terminal device 2 when there is a print instruction from the user. For this reason, the image forming apparatus 3 does not need to keep the communication unit 31 operating at all times, and power consumption is reduced.

As described above, in the image forming system 1 according to the present embodiment, the image forming apparatus 3 uses the image forming apparatus 3 as a trigger to save power when the operation of the communication unit 31 is stopped. Transition from state to working state. Then, a print job to be subjected to image formation is acquired from the terminal device 2, and image formation processing is executed. The image forming apparatus 3 sets the power saving state again when the image forming process is completed or when no print job is acquired from the terminal device 2.
As a result, the image forming apparatus 3 is shifted to an operating state when the user performs printing, but a power saving state is set in which the operation of the communication unit 31 is also stopped during other periods. For this reason, in a period other than the period during which the user performs printing, the CPU in the control unit 30 is suppressed from being activated by a packet that is not required to be transmitted via the network 4. In addition, power consumption in a period other than the period during which the user performs printing is mainly power consumed by the instruction input receiving unit 331. Thereby, a high power saving effect in the image forming apparatus 3 can be obtained.

  In the image forming system 1 according to the present embodiment, the terminal device 2 forms an image of the print job stored in the print job storage unit 26 when the image forming device 3 receives a print job transmission request. Transmit to device 3. On the other hand, when there is no print job transmission request from the image forming apparatus 3, the print job is not transmitted to the image forming apparatus 3 even if the print job is stored in the print job storage unit 26. As a result, the image forming apparatus 3 receives a print job from the terminal device 2 when there is a print instruction from the user. For this reason, the image forming apparatus 3 does not need to keep the communication unit 31 operating at all times, and power consumption is reduced.

1 is a diagram illustrating a configuration example of an image forming system according to an embodiment. It is a block diagram explaining the structure of the terminal device of this Embodiment. 1 is a block diagram illustrating a configuration of an image forming apparatus according to an exemplary embodiment. It is a figure explaining the operation mode set with the image forming apparatus of this Embodiment. It is a sequence diagram explaining an example of the procedure of the image formation process performed with the image forming system of this Embodiment. 6 is a flowchart illustrating an example of processing contents when the image forming apparatus of the present embodiment executes an image forming process. 6 is a flowchart illustrating an example of processing contents when the terminal device according to the present embodiment transmits a print job to the image forming apparatus.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 ... Image forming system, 2 ... Terminal device, 3 ... Image forming apparatus, 4 ... Network, 20, 30 ... Control part, 21 ... Image data preparation part, 24 ... Communication part, 26 ... Print job memory | storage part, 31 ... Communication 32, image output unit, 33 ... user interface (UI) unit, 35 ... power supply unit, 211, 311 ... communication control unit, 314 ... address information storage unit, 331 ... instruction input receiving unit

Claims (10)

A printer device for forming an image in accordance with an image forming command;
A command transmitting device for transmitting the image forming command to the printer device;
Communication means for performing communication between the printer device and the command transmission device;
The printer device includes:
Receiving means for receiving an input of an image formation instruction by an operator;
A command requesting unit configured to request the command transmitting device to transmit the image forming command via the communication unit when the receiving unit receives the input of the image forming instruction; Image forming system.   The command request unit is supplied with power after receiving the input of the image forming instruction in the receiving unit, and the supply of power is stopped after completion of image formation in accordance with the image forming command. Item 8. The image forming system according to Item 1.   The command requesting unit is configured to stop power supply when power is supplied after the input of the image forming instruction by the receiving unit is received and the image forming command is not transmitted from the command transmitting device. The image forming system according to claim 1, wherein: Further comprising image processing means for performing image processing in accordance with the image formation command;
2. The image forming system according to claim 1, wherein the image processing unit stops power supply in response to a stop of power supply to the command request unit. Image forming means for forming an image in accordance with an image forming instruction;
Receiving means for receiving an instruction input for instructing image formation by the operator at the image forming means;
Command requesting means for requesting transmission of the image forming command to an external apparatus connected to the communication means when connected to the communication means and receiving the instruction input by the receiving means. A printer device.   6. The command requesting unit is supplied with power after the instruction input is received by the receiving unit, and the supply of power is stopped after completion of image formation in accordance with the image forming command. Printer device.   The power supply is stopped when the image request is not transmitted from the external apparatus after power is supplied after the instruction input is received by the receiving means. Item 6. The printer device according to Item 5. Further comprising image processing means for performing image processing in accordance with the image formation command;
6. The printer apparatus according to claim 5, wherein the image processing unit stops power supply in response to a stop of power supply to the command request unit. Command generating means for generating the image forming command for the printer device that forms an image according to the image forming command;
Command storage means for storing the image formation command generated by the command generation means;
Transmission that transmits to the printer device the image formation command stored in the command storage unit when there is a transmission request for the image formation command from the printer device connected to the communication unit. And a command transmission device.   10. The transmission unit according to claim 9, wherein when there is no transmission request for the image formation command from the printer device, the transmission unit does not transmit the image formation command stored in the command storage unit to the printer device. Command transmission device.

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