JP6797985B2 - Printing device, control method of printing device, and program - Google Patents

Description

The present invention relates to a printing device that controls power according to a request transmitted from a terminal connected via a network, a control method of the printing device, and a program .

Conventionally, there is known a technique for remotely controlling the power of an information processing device from a terminal connected to the information processing device to be controlled by power (see Patent Document 1).

JP-A-2010-152709

The image forming apparatus disclosed in Cited Document 1 shifts to the power-off state when it receives the power-off request packet transmitted from the terminal. However, when the power of the image forming apparatus is turned off from a terminal physically separated from the image forming apparatus via a network, the situation around the image forming apparatus cannot be known from the terminal. Therefore, even though an object such as a person exists around the image forming apparatus, the image forming apparatus that receives the power off request packet is put into the power off state. That is, in Cited Document 1, the image forming apparatus that receives the power off request packet is turned off even though there is a person near the image forming apparatus. From the user's point of view, the power is suddenly turned off even though he was thinking of using the image forming apparatus. As described above, when the power supply of the image forming apparatus is remotely controlled, a situation may occur in which the convenience of the user is impaired.

Therefore, an object of the present invention is to appropriately shut down the information processing apparatus according to a shutdown request received via the network.

The printing device of the present invention is a printing device capable of executing a printing job and capable of communicating with an external device via a network, and is a detection means for detecting a person and the first one transmitted from the external device. receiving means for receiving the transmitted second shutdown request from the shutdown request及beauty before Kigaibu device, to shut down the printing apparatus according to the received first shutdown request by said receiving means, by said receiving means The printing apparatus is provided with a shutoff means for shutting down the printing device based on the detection result of the detection means according to the received second shutoff request.

According to the information processing apparatus of the present invention, the information processing apparatus can be appropriately shut down according to the shutdown request received via the network.

It is a figure which showed the whole structure of the printing system including the image forming apparatus of 1st Embodiment of this invention. It is a top view of the image forming apparatus. It is a hardware block diagram of an image forming apparatus. It is a block diagram of a sensor unit. It is a power circuit diagram of an image forming apparatus. It is a power circuit diagram of the image forming apparatus in a standby state. It is a power circuit diagram of the image forming apparatus in a sleep state. It is a power circuit diagram of the image forming apparatus in the power off state. It is a figure which shows the exchange of processing which is executed between a PC and an image forming apparatus when shutting down an image forming apparatus remotely from a PC. It is a figure which showed the screen displayed on the PC. It is a flowchart which showed the process which the image forming apparatus which received the shutdown request executes. It is a flowchart which showed the process which the image forming apparatus which received the shutdown instruction executes. It is a figure which showed the screen which is displayed on the display part of an image forming apparatus. It is a flowchart which showed the process which the image forming apparatus of 2nd Embodiment which received the shutdown request executes. It is a figure for demonstrating the algorithm for detecting a person approaching an image forming apparatus.

Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings.

(First Embodiment)
FIG. 1 is a diagram showing an overall configuration of a printing system including an image forming apparatus according to a first embodiment of the present invention.

As shown in FIG. 1, the printing system 1 includes an image forming apparatus 100 and a PC (personal computer) 200 which is an external apparatus. In this printing system 1, the image forming apparatus 100 and the PC 200 are communicably connected via the network 300. The network 300 may be a wired network or a wireless network. An infrared array sensor 351 is attached to the front surface of the image forming apparatus 100.

The PC 200 is a general computer device having a fixed storage device such as a CPU, RAM, and HDD, and to which a monitor, a keyboard, a mouse, and the like are connected. The PC 200 has a web browser, and it is possible to view / set files, data, various setting information, etc. stored in the image forming apparatus 100 via the network 300 by input operations such as a keyboard and a mouse. is there. Further, the PC 200 can acquire a web screen for executing a remote shutdown function for shutting off the power of the image forming apparatus 100 provided by the image forming apparatus 100 via a web browser. The PC 200 is not limited to a PC, and may be a mobile phone or a PDA as long as it is equipped with a web browser.

FIG. 2 is a plan view of the image forming apparatus.

As shown in FIG. 2, the infrared array sensor 351 is attached to the front surface of the image forming apparatus 100. The infrared array sensor 351 of this embodiment is provided in the vicinity of the operation unit 12. The infrared array sensor 351 has a detection range R of about 6.0 m.

FIG. 3 is a hard block diagram of the image forming apparatus.

The details of the controller 11 that controls the overall operation of the image forming apparatus 100 will be described with reference to FIG.

As shown in FIG. 3, the image forming apparatus 100 includes a controller 11, an operation unit 12, a printer unit 13, a scanner unit 14, and a sensor unit 15 that control the operation of the image forming apparatus 100. The controller 11 is electrically connected to the operation unit 12, the scanner unit 13, the printer unit 14, and the sensor unit 15. The controller 11 includes a CPU 301, a RAM 302, a ROM 303, a power supply control unit 304, an input / output I / F 305, and a LAN controller 306. The CPU 301, RAM 302, ROM 303, power supply control unit 304, input / output I / F 305, and LAN controller 306 are connected to the system bus 307. Further, the controller 11 includes an HDD 308, an image processing unit 309, a scanner I / F310, and a printer I / F311. The HDD 308, the image processing unit 309, the scanner I / F 310, and the printer I / F 311 are connected to the image bus 312.

The CPU 301 comprehensively controls access to various connected devices based on a control program or the like stored in the ROM 303, and also comprehensively controls various processes executed by the controller 11. The RAM 302 is a system work memory for operating the CPU 301. The RAM 302 is also a memory for temporarily storing image data. The ROM 303 stores a boot program of the device and the like. The power supply control unit 304 controls each switch in order to control the power supply to each unit of the image forming apparatus 100. Details of the power supply control unit 304 will be described later. The input / output I / F 305 is an interface unit for connecting the system bus 307 to the operation unit 12 and the sensor unit 15. The input / output I / F 305 receives image data to be displayed on the operation unit 12 from the system bus 307 and outputs the image data to the operation unit 12, and outputs the information input from the operation unit 12 to the system bus 307. Further, the input / output I / F 305 outputs the detection result of the infrared array sensor 351 output by the sensor unit 15 to the power supply control unit 304. The LAN controller 306 controls the input / output of information between the image forming apparatus 100 and the PC 200 connected to the network 300. In the present embodiment, the LAN controller 306 receives an instruction for shutting down the image forming apparatus 100 (hereinafter referred to as a shutdown instruction) from the PC 200.

The HDD 308 is a hard disk drive and stores system software and image data. The image processing unit 309 is for performing image processing, reads out the image data stored in the RAM 302, enlarges or reduces JPEG, JBIG, etc., and performs image processing such as color adjustment. The scanner I / F 310 is an interface unit for communicating with the scanner control unit 331 of the scanner unit 13. The printer I / F311 is an interface unit for communicating with the printer control unit 341 of the printer unit 14. The image bus 312 is a transmission line for exchanging image data, and is composed of a bus such as a PCI bus or IEEE 1394.

The scanner unit 13 optically reads an image from the original and generates image data. It has a scanner control unit 331 and a scanner unit 332. The scanner unit 332 is a device that physically drives the document, including a paper transport motor for transporting the document set in the paper feed unit to the reading position of the scanner unit 13. The scanner control unit 331 controls the operation of the scanner unit 332. The scanner control unit 331 receives the setting information set by the user when performing the scanner processing by communication with the CPU 301, and controls the operation of the scanner unit 332 based on the setting information.

The printer unit 14 forms an image on a recording medium (paper) according to an electrophotographic method. The printer unit 14 has a printer control unit 341 and a printer unit 342. The printer unit 342 is a physically driven device including a motor for rotating the photosensitive drum, a motor for rotating the fuser, a paper transport motor, and the like. The printer control unit 341 controls the operation of the printer unit 342. The printer control unit 341 receives the setting information set by the user when performing the print process by communicating with the CPU 301, and controls the operation of the printer unit 342 based on the setting information.

The sensor unit 15 will be described later.

FIG. 4 is a block diagram showing the details of the sensor unit.

As shown in FIG. 4, the sensor unit 15 includes an infrared array sensor 351 and a microcomputer 352 that analyzes information output from the infrared array sensor 351.

The infrared array sensor 351 is a sensor in which thermopile elements 1a to 8h that receive infrared rays are arranged in a grid pattern. Each thermopile element 1a to 8h of the infrared array sensor 351 receives infrared rays radiated from a person or the like, and outputs information indicating the temperature to the microcomputer 352. The information indicating this temperature is, for example, a voltage value. The microcomputer 352 measures the temperature of an object such as a person by comparing the reference voltage value with the voltage values output from the thermopile elements 1a to 8h. The information indicating the temperature output to the microcomputer 352 may be an analog value or a digital value. The infrared array sensor 351 of the present embodiment is provided to detect a person approaching the image forming apparatus 100. Therefore, the infrared array sensor 351 is attached obliquely upward so as to face the face not covered with clothes or the like so that the temperature of a person can be accurately measured. The mounting direction of the infrared array sensor 351 is not limited to diagonally upward, and may be directed diagonally downward so as to face the feet of a person.

Further, the microcomputer 352 determines whether or not a person has approached the image forming apparatus 100 based on the information indicating the temperature output from the thermopile elements 1a to 8h. Then, when the microcomputer 352 determines that the person has approached the image forming apparatus 100, the microcomputer 352 outputs information indicating that the person has approached the image forming apparatus 100 to the power supply control unit 304. The microcomputer 352 forms an image when the number of thermopile elements 1a to 8h that output information indicating a temperature of a predetermined temperature (for example, 30 ° C.) or higher becomes a predetermined number or more (for example, 20 elements or more). It is determined that the device 100 has been approached. The method for determining that a person has approached the image forming apparatus 100 is not limited to the above-mentioned method. For example, when the thermopile elements 1a to 8h that output information indicating a temperature of a predetermined temperature (for example, 30 ° C.) or higher increase by a predetermined number or more during a predetermined time, it is determined that a person has approached the image forming apparatus 100. You may. Further, when any of the thermopile elements 1a to 8h (for example, the thermopile elements 1e to 8h in the e-row, f-row, g-row and h-row) outputs information indicating a temperature equal to or higher than a predetermined temperature. In addition, it may be determined that a person has approached the image forming apparatus 100.

When the microcomputer 352 determines that a person has approached the image forming apparatus 100, the electric power control unit 304 controls the image forming apparatus 100 in the sleep state to shift to the standby state. Further, when it is determined that no one is left around the image forming apparatus 100, the image forming apparatus 100 in the standby state may be put into the sleep state.

An example of using an infrared array sensor in which thermopile elements are arranged in a grid pattern has been described as a sensor for detecting a person approaching the image forming apparatus 100, but the type of sensor is not limited to the infrared sensor. For example, as the type of sensor, an optical sensor that detects light, a strain sensor that is deformed by physical force, a magnetic sensor that detects magnetism, a pyroelectric sensor that utilizes a pyroelectric effect, or the like may be used. Further, the arrangement of the elements used in the infrared array sensor does not have to be in a grid pattern, and the elements may be arranged in a line shape or may be one element.

<About the power supply circuit diagram of the image forming apparatus 100>
FIG. 5 is a power supply circuit diagram of the image forming apparatus. The electric power generated by the power supply unit 40 is supplied to each part of the image forming apparatus 100 described above. The power supply unit 40 has a first power supply unit 410, a second power supply unit 411, and a third power supply unit 412.

The first power supply unit 410 converts the AC power supplied through the plug P into DC power (for example, 5.1 V (first output power)). Then, the DC power is applied to the devices of the first power supply system (CPU 301, RAM 302, ROM 303, power supply control unit 304, input / output I / F 305, LAN controller 306, HDD 308, sensor unit 15, and button 122 of the operation unit 12). Be supplied.

The second power supply unit 411 converts the AC power supplied through the plug P into DC power (for example, 12V (second output power)). This DC power is supplied to the devices of the second power supply system (display unit 121 of the operation unit 12, image processing unit 309, printer control unit 341 of the printer unit 14, and scanner control unit 331 of the scanner unit 13).

Further, the third power supply unit 412 converts the AC power supplied via the plug P into DC power (for example, 24V) to the devices of the third power supply system (printer unit 342 and scanner unit 332). Supply power.

Further, a power switch 416 that is turned on or off by a user's operation is provided between the first power supply unit 410 and the device of the first power system. A signal A indicating the state (on state or off state) of the power switch 416 is input to the power control unit 304. When the signal A input to the power supply control unit 304 indicates an off state, the CPU 301 of the image forming apparatus 100 executes a shutdown process. In this shutdown process, after executing a file closing process, a process of saving the contents of the RAM 302 to the HDD 308, a network disconnection process, and the like, the power supply to the image forming apparatus 100 from the AC power supply is stopped. ..

Further, the power supply unit 40 has a switch 417 composed of FETs (field effect transistors) arranged in parallel with the power supply switch 416. The switch 417 is changed from the on state to the off state or from the off state to the on state by the control signal B output from the power supply control unit 304. When the above-mentioned shutdown process is executed, the switch 417 is turned off by the control of the power supply control unit 304.

The power switch 416 is provided with a solenoid 416a. A voltage is applied to the solenoid 416a in response to the control signal C output from the power supply control unit 304, and the power supply switch 416 is turned off. When the auto shutdown function and the remote shutdown function provided in the image forming apparatus 100 are executed, the solenoid 416a is driven and the power switch 416 is turned off according to the state of the control signal B output from the power supply control unit 304. become. The auto-shutdown function is a function of causing the image forming apparatus 100 to perform a shutdown process when a predetermined time elapses in a sleep state without any user operation or job execution. Further, the remote shutdown function is a function of causing the image forming apparatus 100 to perform a shutdown process in response to a shutdown instruction transmitted from the PC 200.

A relay switch 418 is provided between the plug P and the second power supply unit 411. Further, a relay switch 419 is provided between the plug P and the third power supply unit 412. The relay switches 418 and 419 are changed from the on state to the off state or from the off state to the on state by the control signal D output from the power supply control unit 304. When the image forming apparatus 100 goes into the sleep state, the relay switch 418 and the relay switch 419 are turned off.

A switch 420 is provided between the power switch 416 and the CPU 301, ROM 303, and HDD 304. The switch 420 is changed from the on state to the off state or from the off state to the on state by the control signal E output from the power supply control unit 304.

A switch 421a is provided between the second power supply unit 411 and the printer control unit 341. Further, a switch 421b is provided between the third power supply unit 412 and the printer unit 342. The switch 421a and the switch 421b are changed from the on state to the off state or from the off state to the on state by the control signal F output from the power supply control unit 304.

A switch 422a is provided between the second power supply unit 411 and the scanner control unit 331. Further, a switch 422b is provided between the third power supply unit 412 and the scanner unit 332. The switch 422a and the switch 422b are changed from the on state to the off state or from the off state to the on state by the control signal G output from the power supply control unit 304.

<About the power status of the image forming device>
The image forming apparatus 100 goes into a standby state, a sleep state, and a power-off state. The image forming apparatus 100 may be in a state other than the above-mentioned states (for example, an operating state (printing, scanning, etc.), hibernation state, etc.).

FIG. 6 is a diagram showing an image forming apparatus in a standby state. The standby state is a state in which the transition state occurs when the execution of printing or scanning is completed. In the standby state, power is being supplied to the first to third power supply system devices via the plug P. In the standby state, the switches 416, 417, 418, 419, 420, 421a, 421b, 422a and 422b are turned on.

FIG. 7 is a diagram showing an image forming apparatus in a sleep state. The sleep state is a state in which power is supplied to a location necessary for energizing the RAM 302 in which the running program is deployed and returning to the standby state. It is in a state where it is possible to accept operations of various buttons 122 of the operation unit 12 and receive jobs from the PC 200. When the button 122 is operated by the user or a job is received from the PC 200, the process can be restarted by using the program expanded in the RAM 302. Therefore, it is possible to return from the sleep state to the standby state at a higher speed than the transition from the power off state to the standby state. When any of the buttons 122 of the operation unit 12 is pressed by the user in the sleep state, the state of the signal H changes (for example, the Hi level is reached). Further, when the microcomputer 352 of the sensor unit 15 detects a person approaching the image forming apparatus 100 in the sleep state, the state of the signal I output from the microcomputer 352 changes (for example, the Hi level is reached). Further, when the LAN controller 306 receives a job or the like in the sleep state, the state of the signal I output from the LAN controller changes (for example, the Hi level is reached). The power supply control unit 304 controls the image forming apparatus 100 to shift to the standby state when the state of the input signal H, signal I or signal J changes. Specifically, the power supply control unit 304 controls the signal D, the signal F, and the signal G. As a result, the switches 418, 419, 421a, 421b, 422a and 422b are turned on. As shown in FIG. 7, in the sleep state, the switches 416, 417 and 420 are turned on, but the switches 418, 419, 421a, 421b, 422a and 422b are turned off.

FIG. 8 is a diagram showing an image forming apparatus in a power-off state. The power-off state is a state in which power is not supplied to the image forming apparatus 100 via the plug P. Specifically, when the power switch 416 is in the off state, the image forming apparatus 100 is in the power off state. As shown in FIG. 8, in the power supply state, the switches 416, 417, 418, 419, 420, 421a, 421b, 422a and 422b are turned off.

<Remote shutdown process>
The image forming apparatus 100 of the present embodiment has a remote shutdown function. The remote shutdown function is a function in which the image forming apparatus 100 executes a shutdown process based on a shutdown instruction transmitted from the PC 200 via the network 300.

FIG. 9 is a diagram showing an exchange of processing executed between the PC and the image forming apparatus when the image forming apparatus is shut down remotely from the PC. 10 (A)-(D) are screens displayed on the display unit of the PC.

First, the user starts a web browser from the PC 200 in order to display the remote UI screen A for confirming the state of the image forming apparatus 100, the remaining amount of consumables of the image forming apparatus 100, and the like. Then, the PC 200 requests the image forming apparatus 100 to acquire the remote UI screen A (FIG. 10 (A)). The image forming apparatus 100 that has received the request provides the remote UI screen A to the PC 200.

Then, the user selects the shutdown button 701 displayed on the remote UI screen A in order to shut down the image forming apparatus 100 from the PC 200. When the shutdown button 700 is selected, the PC 200 requests the image forming apparatus 100 to acquire the screen B for transmitting the shutdown request to the image forming apparatus 100. Upon receiving the request, the image forming apparatus 100 provides the PC 200 with a screen B (FIG. 10B) for requesting the shutdown of the image forming apparatus 100. As shown in FIG. 10B, a remote shutdown request button 801 for requesting the shutdown process from the image forming apparatus 100 is displayed on the screen B.

When the remote shutdown request button 801 is selected by the user (S500), a shutdown request is transmitted from the PC 200 to the image forming apparatus 100 (S501). When the image forming apparatus 100 receives the shutdown request from the PC 200, the image forming apparatus 100 confirms whether or not a person exists in the detection area R of the infrared array sensor 351 (S502). The image forming apparatus 100 transmits the response screen C or the response screen D depending on whether or not a person is present in the detection region of the infrared array sensor 351 (S503).

When there is no person in the detection area R, the PC 200 displays the response screen C shown in FIG. 10 (C). As shown in FIG. 10C, the response screen C displays a shutdown instruction button 901 for instructing the image forming apparatus 100 to perform shutdown processing, and a cancel button 902 for canceling the request for shutdown processing. Will be done. The shutdown instruction button 901 will be referred to as an SD button 901 below.

Further, when a person is present in the detection area R, the PC 200 displays the response screen D shown in FIG. 10 (D). As shown in FIG. 10D, the response screen D has a forced shutdown instruction button 1001 (hereinafter referred to as a forced SD button 1001), a shutdown standby instruction button 1002 (hereinafter referred to as a standby instruction button 1002), and a cancel. Button 1003 is displayed. The forced SD button 1001 is provided to forcibly shut down the image forming apparatus 100. Further, the standby instruction button 1002 is provided to execute the shutdown process when a person disappears from the detection area R. Further, the cancel button 1003 is provided to cancel the request for the shutdown process.

The PC 200 displays the response screen C or the response screen D acquired from the image forming apparatus 100 on the web browser. When the button 901, 1001 or 1002 for executing the remote shutdown is selected by the user (S504), the PC 200 sends a remote shutdown instruction to the image forming apparatus 100 (S505). When the image forming apparatus 100 receives the remote shutdown instruction from the PC 200, the image forming apparatus 100 executes the remote shutdown process according to the instruction (S506). Specifically, when the SD button 901 is selected on the response screen C, the image forming apparatus 100 executes the shutdown process in accordance with the pressing of the button 901. Further, when the forced SD button 1001 is pressed on the response screen D, the image forming apparatus 100 executes the shutdown process even if a person exists in the detection area R. Further, when the standby instruction button 1002 is pressed on the response screen D, the image forming apparatus 100 executes the shutdown process at the timing when no one exists from the detection area R.

<Processing executed by the image processing device when a shutdown request is received from the PC>
FIG. 11 is a flowchart executed by the image forming apparatus that has received the shutdown request. The CPU 301 executes the flowchart shown in FIG. 11 by expanding the control program stored in the ROM 303 into the RAM 302.

First, the CPU 301 determines whether or not a shutdown request has been received from the PC 200 (S601). The shutdown request is transmitted from the PC 200 to the image forming apparatus 100 by the user selecting the remote shutdown request button 801 displayed on the screen B (see FIG. 10B).

Then, when the CPU 301 determines that the shutdown request has been received (S601: Yes), it confirms whether or not there is a person in the detection area R of the infrared array sensor 351 (S602). Specifically, the CPU 301 acquires information indicating whether or not there is a person in the detection area R of the infrared array sensor 351 from the microcomputer 352 of the sensor unit 12. Then, when the CPU 301 determines that no person exists in the detection area R of the infrared array sensor 351 (S603: No), the CPU 301 causes the LAN controller 306 to transmit the response screen C (S604). On the other hand, when the CPU 301 determines that a person exists in the detection area R of the infrared array sensor 351 (S603: Yes), the CPU 301 causes the LAN controller 306 to transmit the response screen D (S605).

<Processing executed by the image processing device when a shutdown instruction is received from the PC>
FIG. 12 is a flowchart showing a process executed by the image forming apparatus 100 when a shutdown instruction is received from the PC. FIG. 13A is a status display example showing a shutdown request wait displayed on the display unit of the image forming apparatus. FIG. 13B shows a shutdown execution screen displayed on the display unit of the image forming apparatus.

First, the CPU 301 determines whether or not a shutdown instruction has been received from the PC 200 (S701). This shutdown instruction is transmitted from the PC 200 to the image forming apparatus 100 when the SD button 901, the forced SD button 1001, and the standby instruction button 1002 are selected.

When the CPU 301 determines that the shutdown instruction has been received (S701: YES), the type of the shutdown instruction is confirmed (S702). When the shutdown instruction is a shutdown instruction transmitted by selecting the SD button 901 or the forced SD button 1001 (S702: Yes), the CPU 301 cancels the job stored in the image forming apparatus 100 (S703). ). The job canceled in S703 includes a print job, a copy job, and the like, and includes a job being executed and a job waiting to be executed.

On the other hand, when the shutdown instruction is transmitted by selecting the standby instruction button 1002 (S702: No), the CPU 301 determines whether or not there is a person in the detection area R of the infrared array sensor 351 (S702: No). S704). When the CPU 301 determines that no person exists in the detection area R of the infrared array sensor 351 (S704: No), it confirms whether or not there is an unprocessed job in the image forming apparatus 100 (S705). .. When the CPU 301 determines that there are unprocessed jobs (S705: YES), it is confirmed whether or not a person exists in the detection area R of the infrared array sensor 351 until all the unprocessed jobs are processed (S704). ). As described above, in the present embodiment, when there is a person in the detection area R of the infrared array sensor 351, the image forming apparatus 100 is restricted from performing the shutdown process. Even if the image forming apparatus 100 receives the shutdown instruction transmitted from the PC 200, the image forming apparatus 100 does not immediately execute the shutdown process. When no one is left from the detection area R, the image forming apparatus 100 performs a shutdown process.

On the other hand, when the CPU 301 determines that a person exists in the detection area R of the infrared array sensor 351 (S704: Yes), it indicates that the shutdown process is waiting for execution as shown in FIG. 13 (A). The screen D is displayed on the display unit 121 (S706). Then, the CPU 301 determines whether or not a person exists in the detection area R of the infrared array sensor 351 (S707). When there are no more people in the detection area R of the infrared array sensor 351 (S707: No), the CPU 301h confirms whether or not there is an unprocessed job in the image forming apparatus 100 (S708).

When the job stored in S703 is canceled, the CPU 301 controls the display unit 121 to display a screen E indicating that the shutdown process is being executed, as shown in FIG. 13 (B) (S709). ). Further, when it is determined in S705 or S708 that the unprocessed job no longer exists, the CPU 301 controls the screen E to be displayed on the display unit 121 as shown in FIG. 13 (B) (S709). After the screen E is displayed, the CPU 301 executes the shutdown process. Specifically, the CPU 301 executes a file closing process, a process of saving the contents of the RAM 302 to the HDD 308, a network disconnection process, and the like according to the control program stored in the HDD 308 (S710). Further, the CPU 301 controls the power supply control unit 304 so that the power supplied from the AC power supply via the plug P is stopped. The power control unit 304 turns off the switches 416, 417, 418, 419, 420, 421a, 421b, 422a and 422b. As a result, the image forming apparatus 100 shifts to the power-off state (S711). The power switch 416 is turned off when the power control unit 304 applies a voltage to the solenoid 416a.

As described above, according to the first embodiment of the present invention, when a person exists in the vicinity of the image forming apparatus 100, the shutdown process is forcibly executed, or the shutdown process is performed after the person disappears. You can select whether to execute it on the screen of the PC200.

<Second Embodiment>
In the first embodiment, it has been described that the image forming apparatus 100 transmits two types of shutdown instructions from the PC 200. The two types of shutdown instructions are an instruction to shut down the image forming apparatus 100 regardless of the presence of a person, and an instruction to shut down the image forming apparatus 100 under one condition that the person no longer exists.

In the second embodiment, one type of shutdown instruction is transmitted from the PC 200. In the second embodiment, one type of shutdown instruction transmitted from the PC 200 is transmitted to the image forming apparatus 100 when the OK button 901 of the above-mentioned response screen C (see FIG. 10C) is pressed. .. In the second embodiment, the screen for allowing the user to select forced shutdown or shutdown standby is not displayed. As shown in FIG. 14, when the image forming apparatus 100 receives the shutdown instruction (S801: Yes), it confirms whether or not there is a person (S802, S803), and if there is a person, Delay the shutdown until there are no more people (S803: Yes). On the other hand, when the image forming apparatus 100 receives the shutdown instruction (S803: No), the image forming apparatus 100 confirms whether or not there is a person, and immediately executes shutdown if there is no person (S804).

In the second embodiment, after receiving the shutdown instruction from the PC 200, it is determined whether or not there is a person who approaches the image forming apparatus 100.

<Other embodiments>
In the above embodiment, it is determined that a person exists in the detection region R when a plurality of elements of the infrared array sensor 351 detect a temperature equal to or higher than a predetermined temperature, but the present invention is not limited to this determination. For example, as shown in FIG. 15, when a specific element of the infrared array sensor 351 mounted obliquely upward detects heat, it may be determined that a person is approaching the image forming apparatus 10. good. Specifically, when the elements 1e to 8h on the e-th to h-th lines above the virtual line 6013 detect the heat of the user, the microcomputer 602 determines that the person has approached the image forming apparatus 10. .. On the other hand, when the elements 1e to 8h on the e-th to h-th lines above the line 6013 do not detect the heat of the user, it is determined that the person is not approaching the image forming apparatus 10. Even if the elements 1a to 8d on the ath to dth lines below the line 6013 detect the heat of a person, the person is determined to be a passerby. In another embodiment, the image forming apparatus 100 is restricted from being shut down when the elements 1e to 8h on the e-th to h-th lines above the virtual line 6013 detect the heat of the user. According to the above configuration, although a person exists in the detection area R of the image forming apparatus 10, if the person is a passerby, the shutdown can be performed.

A remote shutdown function that performs a shutdown process in response to an instruction transmitted from a remote PC 200 has been described. However, the present invention is not limited to remote shutdown. Specifically, the present invention may be applied when executing the auto shutdown function or the weekly shutdown function. The auto-shutdown function is a function that executes a shutdown process when a predetermined time elapses without being used by the user. The weekly shutdown function is a function in which the shutdown process is executed at a time specified in advance.

In the above embodiment, an example of executing the shutdown process when the CPU 301 determines that no one exists in the detection area R of the infrared array sensor 351 (S704: No, S707: No) has been described. Even if there is no person in the detection area R of the infrared array sensor 351, the shutdown process may be controlled so as not to be executed for a predetermined time. Even if no one exists in the detection area R of the infrared array sensor 351, the shutdown process is limited for a predetermined time. As a result, even if a person temporarily disappears from the detection area R of the infrared array sensor 351, the shutdown process is not executed if the person returns to the detection area R within the predetermined time.

In the shutdown process, an example of performing a file closing process or the like has been described, but the power supply to the image forming apparatus 100 from the AC power supply may be stopped without performing the file closing process or the like.

Further, in the above-described embodiment, the image forming apparatus including the printer unit has been described, but the present invention can also be applied to an information processing apparatus such as a PC.

The functions shown in the flowchart in this embodiment can also be realized by executing software (programs) acquired via a network or various storage media on a processing device (CPU, processor) such as a computer personal computer.

100 Image forming device 301 CPU
306 LAN controller 351 infrared array sensor 352 microcomputer

Claims (23)

A printing device that can execute print jobs and can communicate with an external device via a network.
Detection means to detect people and
Receiving means for receiving a second shutdown request sent from the first shutdown request及beauty before Kigaibu device transmitted from the front Kigaibu device,
Shut down the printing device according to the first shutdown request received by the receiving means, and shut down the printing device based on the detection result of the detecting means according to the second shutdown request received by the receiving means. A printing apparatus comprising means and means. The data for displaying the first item for transmitting the first shutdown request on the display unit of the external device and the second item for transmitting the second shutdown request are displayed on the display unit of the external device. The printing apparatus according to claim 1, further comprising a transmitting means for transmitting data to be displayed to the external device. The printing device according to claim 1 or 2 , wherein the shutdown means does not shut down the printing device in accordance with the second shutdown request, at least while executing a print job. The printing device according to any one of claims 1 to 3, wherein the shutdown means shuts down the printing device in accordance with the first shutdown request even when the printing job is being executed. The printing apparatus according to claim 4 , wherein the shut-down means interrupts the printing job and shuts down the printing apparatus in accordance with the first shutdown request even if the printing job is being executed. .. Any one of claims 1 to 5 , wherein the shutdown means shuts down the printing apparatus in accordance with the first shutdown request without completing the running print job and the waiting print job. The printing apparatus described in the section. The printing apparatus according to any one of claims 1 to 6, wherein the printing job is a copy job. The printing device according to claim 2 , wherein the data is data for the web browser of the external device to display information on the display unit. The printing apparatus according to any one of claims 1 to 8 , further comprising a display means for displaying a screen indicating that the shutdown is being executed. The printing apparatus according to any one of claims 1 to 9 , wherein the shutdown includes a process of stopping power supply to a predetermined load in the printing apparatus. Before SL shutdown means, wherein regardless of the detection result of the detecting means, said first shut down the printing apparatus according to the shutdown request, that the print apparatus according to any one of claims 1 to 10, characterized in .. It is a control method of a printing device that has a detection means for detecting a person, can execute a print job, and can communicate with an external device via a network.
A first receiving step of receiving the transmitted first shutdown request from the previous Kigaibu device,
A second reception step of receiving the transmitted second shutdown request from the previous Kigaibu device,
A first shutdown step of shutting down the printing apparatus according to the first shutdown request received in the first reception step, and a first shutdown step.
A method for controlling a printing device, which comprises a second shutdown step of shutting down the printing device based on a detection result of the detection means according to the second shutdown request received in the second receiving step. .. A first transmission step of transmitting data for displaying the first item for transmitting the first shutdown request on the display unit of the external device to the external device, and
12. The second aspect of the invention is further comprising a second transmission step of transmitting data for displaying the second item for transmitting the second shutdown request on the display unit of the external device to the external device. The method for controlling a printing apparatus according to. The method for controlling a printing device according to claim 12 or 13 , wherein the printing device is not shut down in accordance with the second shutdown request, at least while the print job is being executed. Any one of claims 1 2 to 14 , wherein the first shutdown step is a step of shutting down the printing apparatus in accordance with the first shutdown request even if the printing job is being executed. The method for controlling the printing apparatus according to the section . The first shutdown step is a step of interrupting the print job and shutting down the printing apparatus in accordance with the first shutdown request even if the print job is being executed. 15. The method for controlling a printing apparatus according to 15 . The first shutdown step is a step of shutting down the printing apparatus in accordance with the first shutdown request without completing the running print job and the waiting print job. The method for controlling a printing apparatus according to any one of 2 to 16 . The print job is a copy job, the control method of the printing apparatus according to any one of claims 1 2 to 1 7, characterized in that. The data control method of the web browser of the external device is a data for displaying information on the display unit, that the print apparatus according to any one of claims 1 2 to 1 8, wherein .. Method for controlling the printing apparatus according to any one of claims 1 2 to 1 9, further comprising a display step, for displaying a screen indicating that the execution of the shutdown. The shutdown method for controlling the printing apparatus according to any one of claims 1 2 to 20, wherein comprising a process of stopping the power supply to the predetermined load in the printing apparatus, it is characterized. Before SL first shutdown means, regardless of the detection result of said detecting means, to shut down the printing apparatus according to the first shutdown request, it to any one of claims 1 2 to 21, wherein The method of controlling the printing apparatus described. A computer with a printing device that has detection means to detect people, can execute print jobs, and can communicate with external devices via a network.
Receiving means for receiving the transmitted second shutdown request from has been the first shutdown request及beauty before Kigaibu device transmitted from the front Kigaibu device and,
Shut down the printing device according to the first shutdown request received by the receiving means , and shut down the printing device based on the detection result of the detecting means according to the second shutdown request received by the receiving means. A program characterized by functioning as a means.

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