JP6987835B2 - Image forming apparatus, control method and program of image forming apparatus - Google Patents

Description

The present invention relates to an image forming apparatus including a touch panel capable of detecting a user's operation and a person detecting sensor capable of detecting the presence of the user, and a control method and program of the image forming apparatus.

As a device that operates by switching between a normal state and a standby state, for example, an image forming device that operates by switching between a normal power state and a power saving state that consumes less power than the normal power state is known. Among the state switching type image forming devices, there is a function that the person detection sensor mounted on the device starts the process of returning from the power saving state to the normal power state in response to detecting a user approaching the device. It has been realized. Patent Document 1 proposes an image processing device configured to be able to adjust the detection distance of a human detection sensor. According to the image processing apparatus of Patent Document 1, by increasing the detection distance of the human detection sensor, a person approaching the apparatus is detected earlier, and the waiting time experienced by the user is shortened.

Further, with the spread of touch panels in recent years, an image forming apparatus for detecting an input to a button (so-called soft key) on an operation screen of the touch panel has been provided. In the state switching type image forming apparatus, a function of starting the process of returning from the power saving state to the normal power state by touching the touch panel by the user is also realized.

Japanese Unexamined Patent Publication No. 2013-109196

However, in the image forming apparatus that recognizes two recovery factors, the detection by the human detection sensor and the detection by the touch panel, the work efficiency of the work using the image forming apparatus can be improved by inputting an operation not intended by the user. In some cases, it would drop.

Specifically, there are the following use cases. When the user quickly approaches the image forming apparatus, the return process may not be completed when the user arrives in front of the image forming apparatus. If no screen is displayed on the touch panel because the return process is incomplete, it is expected that the user will be prompted to perform the return process by touching any part of the touch panel. If the user touches the touch panel immediately after the screen display on the touch panel is started, the operation on the button immediately after the display on the touch panel is started is accepted. As a result, for example, when the button instructing the transition to the power saving state is operated, the image forming apparatus immediately after returning to the normal power state may start the transition processing to shift to the power saving state again. There is. That is, there is a case that the work efficiency of the work using the image forming apparatus is lowered, such as an unnecessary waiting time for the user due to the execution of the process according to the operation not intended by the user.

The present invention has been made in view of the above problems, and in an image forming apparatus that recognizes two recovery factors, detection by a human detection sensor and detection by a touch panel, the work efficiency of work using the image forming apparatus is improved. The purpose is to suppress the decline.

The image forming apparatus of the present invention displays information, a display unit capable of displaying information, a touch sensor that accepts a user operation on the display unit, a motion sensor that can detect the presence of a person in a non-contact manner, and information. When a user operation on the display unit is accepted by the touch sensor, a screen including a predetermined object for executing a predetermined function is displayed on the display unit, and the user operation on the predetermined object is performed by the touch sensor. If accepted by, and control means for executing the predetermined functions, wherein, when the presence of the person by the person detecting sensor is detected, to display the screen on the display unit, the After the screen is displayed on the display unit due to the detection of the presence of the person by the motion sensor, the predetermined function is not executed even if the touch sensor temporarily accepts the user operation for the predetermined object. It is characterized by.

According to the present invention, in an image forming apparatus that recognizes two types of return factors, detection by a human detection sensor and detection by a touch panel, it is possible to suppress a decrease in work efficiency of work using the image forming apparatus. It plays the effect.

It is a figure which shows the appearance example of the image forming apparatus in Embodiment 1. FIG. It is a block diagram which shows the signal processing procedure in Embodiment 1. FIG. It is a figure which shows the structural example of the touch panel in Embodiment 1. FIG. It is a schematic diagram which shows how the user is detected in Embodiment 1. FIG. It is a figure which shows the screen example displayed on the touch panel in Embodiment 1. FIG. It is a figure which shows the state transition of each signal in Embodiment 1. FIG. It is a flowchart which shows the return processing procedure to return to the normal power state in Embodiment 1. FIG. It is a figure which shows the state transition of each signal in Embodiment 2. It is a flowchart which shows the return processing procedure to the normal power state in Embodiment 2. It is a figure which shows the state transition of each signal in Embodiment 3. FIG. It is a flowchart which shows the return processing procedure to the normal power state in Embodiment 3.

Hereinafter, embodiments for carrying out the present invention will be described with reference to the drawings. However, the configurations described in this embodiment are merely examples, and the scope of the present invention is not intended to be limited thereto.

[Embodiment 1]
(Image forming device)
FIG. 1 is a diagram showing an external example of the image forming apparatus 1 in the present embodiment. FIG. 1 shows the appearance of the image forming apparatus 1 as viewed from the front. The image forming apparatus 1 shown in FIG. 1 includes an image forming unit 10, an image reading unit 20, a human detection sensor 30, an operation unit 400, and paper feeding units 60, 70, 80. The image forming apparatus 1 of the present embodiment is an MFP (Multi Function Peripheral) having a copying function and a printing function. The image reading unit 20 generates an original image by optically reading the original placed on the reading table. The image forming unit 10 receives the supply of paper from the paper feeding units 60 to 80, and forms (outputs) an image on the supplied paper. The paper on which the image is formed by the image forming unit 10 is then output to the output tray 90. Further, the image forming unit 10 can receive a print job from an external device (not shown) via a network and form an image on paper based on the received print job. The number of paper feed stages, the paper ejection direction, and the like are not limited to the configuration of the present embodiment (FIG. 1).

The human detection sensor 30 of the present embodiment is built in the upper left side of the image forming apparatus 1 when the image forming apparatus 1 is viewed from the front. The cover covering the person detection sensor 30 is provided with slits, and the person detection sensor 30 can output ultrasonic waves in the front direction of the image forming apparatus 1 through these slits. The human detection sensor 30 outputs a detection signal when it detects a reflected wave for the output ultrasonic wave. That is, the human detection sensor 30 is an ultrasonic type detection sensor. The human detection sensor 30 may be a sensor other than the ultrasonic type, and for example, an infrared sensor capable of detecting the ambient temperature may be applied to the human detection sensor 30. Further, the arrangement position of the person detection sensor 30 is not limited to the upper left side of the image forming apparatus 1 when the image forming apparatus 1 is viewed from the front.

The operation unit 400 of the present embodiment is arranged on the upper right side of the image forming apparatus 1 when the image forming apparatus 1 is viewed from the front. The operation unit 400 is provided with LEDs 421, 422, and 423 that indicate the power state and the operating state of the image forming apparatus 1. Further, the operation unit 400 is provided with a touch panel 500 for receiving an operation input from the user. Although the touch panel 500 of the present embodiment is an electric resistance type, another type of touch panel such as a capacitance type or an optical type may be applied. A display device is arranged on the lower layer of the touch panel 500. In the present embodiment, an LCD (Liquid Crystal Display) described later is used as the display device. The arrangement position of the operation unit 400 is not limited to the upper right side of the image forming apparatus 1 when the image forming apparatus 1 is viewed from the front.

(Control block diagram)
FIG. 2 is a block diagram showing a signal processing procedure mainly in the operation unit 400 in the present embodiment. The operation control unit 410 is an integrated circuit such as a microcomputer in which the control program of the operation unit 400 is stored. Similarly, in the present embodiment, the LED control circuit 420, the human detection sensor control circuit 430, and the touch panel control circuit 440 are also mounted as integrated circuits, respectively. The operation control unit 410 controls the operations of the LEDs 421 to 423, the human detection sensor 30, and the touch panel 500 while inputting and outputting signals to and from each control circuit. Further, the operation control unit 410 can also input / output signals to / from the main body control unit 110. The configuration of the control block is not limited to FIG. 2, and for example, the operation control unit 410 and the main body control unit 110 may be mounted on the same integrated circuit. Similarly, the LED control circuit 420, the human detection sensor control circuit 430, and the touch panel control circuit 440 may be mounted on the same integrated circuit.

Next, the light emission control of the LEDs 421 to 423 will be described. The operation control unit 410 outputs an ON (OFF) signal to the LED control circuit 420 when a signal indicating an instruction to turn on (turn off) the LEDs 421 to 423 is input from the main body control unit 110. The LED control circuit 420 of the present embodiment is implemented by a switching circuit such as a transistor, and supplies (cuts off) power to the LEDs 421 to 423 according to an ON (OFF) signal input from the operation control unit 410. When power is supplied, LEDs 421 to 423 are turned on, and when power is cut off, LEDs 421 to 423 are turned off.

Next, the control of the human detection sensor 30 will be described. The human detection sensor 30 can detect whether or not an object such as a person is present in a predetermined detection range. As described above, the human detection sensor 30 of the present embodiment is an ultrasonic detection sensor. The human detection sensor control circuit 430 starts outputting a pulse wave in response to an ENB signal input from the operation control unit 410. The human detection sensor 30 radially outputs a pulse wave of about 40 kHz to the front of the image forming apparatus 1 based on the pulse wave input from the human detection sensor control circuit 430. Then, when an object such as a person exists within the detection range, the person detection sensor 30 detects the reflected wave reflected by the object such as a person. When the signal based on the reflected wave is input, the human detection sensor control circuit 430 outputs the human detection signal to the operation control unit 410. The operation control unit 410 can detect an object such as a person existing in front of the image forming apparatus 1 by inputting a person detection signal from the person detection sensor control circuit 430. In this embodiment, it is possible to determine whether or not the detected object such as a person is a person approaching the image forming apparatus 1 by a process based on the person determination algorithm described later. Further, the operation control unit 410 of the present embodiment may estimate the distance from the image forming apparatus 1 to the object based on the time difference between the time when the human detection sensor 30 outputs the pulse wave and the time when the reflected wave is detected. can. Further, since the pulse wave is output from the human detection sensor 30 at predetermined time intervals, the operation control unit 410 also detects that the object has moved by monitoring the time difference in which the human detection sensor 30 detects the reflected wave. be able to. The control of the touch panel 500 will be described with reference to FIGS. 3 and later.

(Touch panel structure)
FIG. 3 is a diagram showing a structural example of the touch panel 500 according to the present embodiment. The touch panel 500 of this embodiment is a so-called resistance type touch panel. The touch panel 500 has two resistance films 510 and 520 made of a transparent conductive film such as ITO (Indium Tin Oxide). These resistance films 510 and 520 are formed on one side of a film such as glass or PET, and are arranged so that the ITO surfaces of the resistance films 510 and 520 face each other. When the user is not operating the touch panel 500, the distance between the resistance film 510 and the resistance film 520 is maintained by a spacer (not shown). When the user is operating the touch panel 500, for example, when the user is pressing the touch panel 500 with a finger or the like, the resistance film 510 and the resistance film 520 come into contact with each other. The electrodes of the resistance film 510 and the electrodes of the resistance film 520 are arranged at positions orthogonal to each other. Specifically, as shown in FIG. 3, XH electrodes 511 and XL electrodes 512 are arranged at both ends of the resistance film 510 in the lateral direction (X-axis direction). On the other hand, the YH electrode 521 and the YL electrode 522 are arranged at both ends of the resistance film 520 in the vertical direction (Y-axis direction).

(Touch panel control)
The XH electrode 511 is connected to the power supply voltage Vcc via a switching element 513 such as a transistor. The XL electrode 512 is connected to the ground potential via a switching element 514 such as a transistor. Similarly, the YH electrode 521 is connected to the power supply voltage Vcc via a switching element 523 such as a transistor. The YL electrode 522 is connected to the ground voltage via a switching element 524 such as a transistor. The touch panel control circuit 440 opens and closes the switching elements 513, 514, 523, and 524, and detects the voltage at the analog detection terminal connected to each electrode. The analog-to-digital conversion circuit 441 converts the detected analog voltage into a discrete value (digital conversion).

For example, when detecting the coordinates in the X direction on the touch panel 500, a voltage is applied to the electrodes of the resistance film 510. That is, the switching elements 513 and 514 are switched on, and the analog potential of the YH electrode 521 is monitored by the touch panel control circuit 440. When the user presses the touch panel 500, the resistance film 510 and the resistance film 520 come into contact with each other, so that the voltage applied by the XH electrode 511 and the XL electrode 512 is divided by the pressed position. This divided voltage is input to the analog-to-digital conversion circuit 441.

Similarly, when detecting the coordinates in the Y direction on the touch panel 500, a voltage is applied to the electrodes of the resistance film 520. That is, the switching elements 523 and 524 are switched on, and the analog potential of the XH electrode 511 is monitored by the touch panel control circuit 440. When the user presses the touch panel 500, the resistance film 510 and the resistance film 520 come into contact with each other, so that the voltage applied by the YH electrode 521 and the YL electrode 522 is divided by the pressed position. This divided voltage is input to the analog-to-digital conversion circuit 441. In this way, the touch panel control circuit 440 can capture changes in the portion where the user operates the touch panel 500 by alternately repeating the voltage measurement of the YH electrode 521 and the voltage measurement of the XH electrode 511. can.

On the other hand, when the user does not press the touch panel 500, the resistance film 510 and the resistance film 520 do not come into contact with each other, so that no voltage is output from the YH electrode 521 and the XH electrode 511. As a result, since the touch panel control circuit 440 does not detect the voltage, it recognizes that the user has not pressed the touch panel 500. When the touch panel control circuit 440 recognizes an operation on the touch panel 500, the touch panel control circuit 440 controls the operation of the operation detection signal indicating that the operation on the touch panel 500 has been performed and the position detection signal output from the analog-digital conversion circuit 441. Output to unit 410. At this time, the position detection signal is transmitted via a communication path such as I2C, and the operation detection signal is transmitted via a communication path (signal line) different from the communication path of the position detection signal. After that, the position detection signal input to the operation control unit 410 is converted into a coordinate data signal consisting of the X coordinate and the Y coordinate when the size of the touch panel 500 is represented by the XY coordinate system.

(Communication between operation control unit and main unit control unit)
With reference to FIG. 2 again, the communication performed between the operation control unit 410 and the main body control unit 110 will be described. The operation control unit 410 outputs a person detection interrupt signal indicating that a person has been detected based on the output of the person detection sensor 30 to the main body control unit 110. Similarly, the operation control unit 410 outputs an operation detection interrupt signal indicating that the touch panel 500 has been operated and a coordinate data signal indicating the position where the operation has been performed on the touch panel 500 to the main body control unit 110. On the other hand, the main body control unit 110 mainly outputs a signal indicating the state of the main body (image forming unit 10) and a signal indicating an instruction to turn on (turn off) the LEDs 421 to 423 to the operation control unit 410. Here, the state of the main body means, for example, a power state such as a normal power state or a power saving state in the image forming apparatus 1, or an error occurrence state such as a paper jam.

In the present embodiment, the main body control unit 110 can control the drive of the LCD 150. In order to supply power to the LCD 150, the main body control unit 110 outputs an ON (OFF) signal to the LCD power control circuit 130. Further, the main body control unit 110 outputs an image data signal to the display control circuit 120. The display control circuit 120 converts the image data signal into a signal of a method according to the standard of the LCD 150 and outputs the signal to the LCD 150. While the image forming apparatus 1 is in the power saving state, each signal is not input to the display control circuit 120 and the LCD power supply control circuit 130, and the backlight of the LCD 150 is maintained in the turned off state. Therefore, the image forming apparatus 1 can consume less power than the normal power state while operating in the power saving state.

The main body control unit 110 generates an image data signal to be output to the display control circuit 120 according to the coordinate data signal input from the operation control unit 410. For example, when the main body control unit 110 receives the coordinate data signal indicating the position of the button displayed on the LCD 150 from the operation control unit 410, the main body control unit 110 generates an image data signal necessary for screen display after the transition. Further, the main body control unit 110 continuously monitors the coordinate data signal input from the operation control unit 410, and when the movement of the coordinates is detected, a flick operation or a slide operation is performed on the touch panel 500. judge. In this way, the main body control unit 110 can generate an image data signal for screen display according to a flick operation or a slide operation by monitoring the position where the operation is performed on the touch panel 500.

(Return processing with human detection as the recovery factor)
FIG. 4 is a schematic diagram showing how the human detection sensor 30 detects a user U approaching the image forming apparatus 1 in the present embodiment. FIG. 4 is a view of the image forming apparatus 1 and the user U as viewed from above.

In this embodiment, the sensitivity setting of the human detection sensor 30 is switchable. For example, the sensitivity of the human detection sensor 30 is configured to be switchable in two stages of "strong" and "weak". As shown in FIG. 4, when the sensitivity of the human detection sensor 30 is set to "weak", the detection range of the human detection sensor 30 is A1, and when the sensitivity is set to "strong", the human detection sensor 30 The detection range of is A2. In the present embodiment, an example in which the sensitivity of the human detection sensor 30 can be set in two stages of “strong” and “weak” has been described, but the sensitivity may be set in three or more stages.

As shown in FIG. 4, when the sensitivity of the person detection sensor 30 is set to "strong" (that is, when the detection range is A2), the person detection sensor 30 is an object such as a person existing in the detection range A2. Can be detected. At this stage, it is not possible to specify whether the detected object such as a person is a person who has an intention to operate the image forming apparatus 1 or a person who simply passes in front of the image forming apparatus. Therefore, the operation control unit 410 of the present embodiment determines whether or not an object such as a person detected by the person detection sensor 30 is a person approaching the image forming apparatus 1 according to a predetermined determination method. Various algorithms can be applied to the above determination method. For example, it is determined based on the transition of the distance between the person detection sensor 30 and an object such as a person within a predetermined time, or during a time when the distance between the person detection sensor 30 and an object such as a person is stagnant. It can be determined based on. Then, when the image forming apparatus 1 is in the power saving state and it is determined that the person (user U) is approaching the image forming apparatus 1, the operation control unit 410 indicates a person detection interrupt signal. Is output to the main body control unit 110. The main body control unit 110 is necessary for the image forming apparatus 1 to return from the power saving state to the normal power state, such as outputting a power supply instruction to each power supply control unit in response to the input of the human detection interrupt signal. Starts execution of recovery processing. In the present embodiment, in the return process, the main body control unit 110 outputs an ON signal to the LCD power supply control circuit 130, and at the same time, displays an image data signal for the initial screen displayed on the LCD 150 immediately after the return process in the display control circuit 120. Output to.

(Return processing with operation detection as the recovery factor)
In FIG. 2, the block shown by the thick line indicates that the power supply is performed even when the image forming apparatus 1 is in the power saving state. Therefore, even when the image forming apparatus 1 is in the power saving state, the operation detection signal and the position detection signal detected by the touch panel 500 are input to the operation control unit 410.

When the image forming apparatus 1 is in the power saving state and the position detection signal is input, the operation control unit 410 operates the touch panel 500 without outputting the coordinate data signal. An operation detection interrupt signal indicating that this is output to the main unit control unit 110. The main body control unit 110 is necessary for the image forming apparatus 1 to return from the power saving state to the normal power state, such as outputting a power supply instruction to each power supply control unit in response to an operation detection interrupt signal being input. Starts execution of recovery processing. Even in the return process in which the operation to the touch panel 500 is the return factor, the main body control unit 110 outputs an ON signal to the LCD power supply control circuit 130 and displays an image for displaying the initial screen displayed on the LCD 150 immediately after the return. The data signal is output to the display control circuit 120.

(Screen of operation unit)
FIG. 5 is a diagram showing an example of a screen displayed on the touch panel 500 (LCD 150) in the present embodiment. FIG. 5 shows an initial screen displayed on the touch panel 500 immediately after the image forming apparatus 1 returns from the power saving state to the normal power state. The screen of this embodiment includes a plurality of button icons. The home button 551 is a user interface that receives an instruction for transitioning the display screen to the home screen. The counter button 552 is a user interface that receives an instruction for displaying the number of prints on the display screen. The status confirmation button 553 is a user interface that receives an instruction for displaying the progress of the process of the print job on the display screen. The shutdown button 554 is a user interface that receives an instruction for shutting down the image forming apparatus 1. When the shutdown button 554 is pressed, the shutdown process for shutting down the image forming apparatus 1 is started. The power saving button 555 is a user interface that receives an instruction for shifting the image forming apparatus 1 to the power saving state. The copy button 556 is a user interface that receives an instruction for displaying the copy operation screen on the display screen. The scan button 557 is a user interface that receives instructions for displaying the scan operation screen on the display screen. The BOX save button 558 is a user interface that receives instructions for displaying the BOX save operation screen on the screen. In the present embodiment, BOX storage means storing print data in a predetermined storage area in the image forming apparatus 1 or an external device (storage device) connected to the image forming apparatus 1 via a network. Refers to processing. The FAX button 559 is a user interface that receives an instruction for displaying the FAX operation screen on the display screen. The setting button 560 is a user interface that receives an instruction for displaying the device setting screen of the image forming apparatus 1 on the display screen. The adjustment button 561 is a user interface that receives an instruction for shifting the operation mode of the image forming apparatus 1 to the adjustment mode. The administrator button 562 is a user interface that receives an instruction for displaying the administrator screen on the display screen. The STOP button 563 is a user interface that receives an instruction for stopping the processing currently being executed by the image forming apparatus 1. For example, if the user U presses the STOP button 563 while the image forming apparatus 1 is executing the image forming based on the print job, the cancel process for canceling the image forming based on the print job is executed. .. The arrow button 564 is a user interface that receives an instruction for displaying the next operation screen on the display screen when the screen of FIG. 5 is composed of a plurality of operation screens. Although the screen of the present embodiment has been described above, the screen shown in FIG. 5 is an example, and the types, numbers, and arrangements of buttons (user interfaces) are not limited to the above. The user U calls a desired screen or switches the operation mode of the image forming apparatus 1 by pressing each button icon 551 to 564 displayed on the LCD 150 or flicking on the screen of the touch panel 500. be able to.

(Control of operation unit)
As described with reference to FIG. 4, in the image forming apparatus 1 of the present embodiment, power supply to the LCD 150 is started in the recovery process from the power saving state in which the person detection is the recovery factor, and then the initial screen is the LCD 150. Is displayed in.

It is not preferable to mount a human detection sensor capable of detecting in all directions (360 degrees) on the image forming apparatus 1 from the viewpoint of cost effectiveness. The human detection sensor 30 of the present embodiment can detect only the front of the image forming apparatus 1, and the detection range thereof is limited to the detection range A2 shown in FIG. Therefore, in the present embodiment, the timing of detecting the user U approaching the image forming apparatus 1 from the lateral direction or the oblique direction may be delayed. In addition, the user U may approach the image forming apparatus 1 faster than expected. In such a case, the initial screen may be displayed on the LCD 150 after the user U arrives at an operable position on the operation unit 400.

If nothing is displayed on the operation unit 400 when the user confronts the image forming apparatus 1, it is assumed that the user presses an arbitrary part of the touch panel 500 to promote the recovery process from the power saving state. To. Immediately after the user starts operating the touch panel 500, if the initial screen is displayed on the touch panel 500 by the return process using human detection as the return factor, the user's finger or the like mistakenly presses each button 551 to 563 on the screen. There is a possibility of contact. Then, as described above, the main body control unit 110 interprets that the operation instructions corresponding to the buttons 551 to 563 have been input to the touch panel 500, and responds to the operation instructions for each unit of the image forming apparatus 1. Let the operation be performed. For example, when the STOP button 563 is touched, the printing operation being executed in the image forming unit 10 is stopped even though the user U does not intend to do so. Alternatively, when the contact with the power saving button 555 occurs, the image forming apparatus 1 starts the transition process of shifting to the power saving state again even though the user U wants to perform the work using the image forming apparatus 1. It ends up. That is, when the process corresponding to the operation not intended by the user U is executed, an unnecessary waiting time is generated for the user U, and the work efficiency of the work using the image forming apparatus 1 is lowered. was there.

In the present embodiment, the work efficiency of the work using the image forming apparatus 1 is performed by performing various signal processing in the image forming apparatus 1 that recognizes the return factors of the two systems of the detection by the human detection sensor 30 and the detection by the touch panel 500. Suppresses the decrease in. It can be said that the operation control unit 410 and the main body control unit 110 that perform such various signal processing are signal processing devices for controlling the image forming device 1. Hereinafter, a detailed description will be given with reference to FIG.

FIG. 6 is a diagram showing state transitions of each signal in the present embodiment. In the state transition diagram of FIG. 6, the rising edge (signal ON) and the falling edge (signal OFF) of the signal are shown for each type of signal shown in FIG. 2 with the horizontal axis as time t.

When the person detection sensor 30 detects an object such as a person in t1, the person detection sensor control circuit 430 outputs the person detection signal to the operation control unit 410. The operation control unit 410 determines whether or not the object detected by the human detection sensor 30 is the user U approaching the image forming apparatus 1 based on the input human detection signal. In the present embodiment, when the human detection sensor 30 detects the object over time Ts, the operation control unit 410 determines that the object is the user U.

At t2, the operation control unit 410 switches the touch panel detection mask signal from High to Low (signal off). As a result, the position detection signal input from the touch panel control circuit 440 is masked over the time Tp, and the coordinate data signal that should be originally transmitted to the main body control unit 110 is not output. In the present embodiment, the time Tp corresponds to the time from when the user U is determined to be approaching the image forming apparatus 1 until the image forming apparatus 1 returns to the normal power state and a predetermined time elapses. .. That is, the contact of the user U with the touch panel 500 is invalidated not only during the period when the image forming apparatus 1 returns from the power saving state to the normal power state but also immediately after the image forming apparatus 1 returns to the normal power state. Will be done.

After a lapse of time Tx after the touch panel detection mask signal is switched off, the operation control unit 410 outputs the person detection interrupt signal to the main body control unit 110 at t3. Tx may be a very short time of about several msec to several tens of msec.

After Ty time has elapsed from the input of the human detection interrupt signal, the main body control unit 110 outputs the ON signal to the LCD power supply control circuit 130 and the image data signal to the display control circuit 120 at t4. At this time, if there is no problem with the power supply sequence in the LCD 150, the power ON signal and the image data signal may be output at the same time, but if the power supply sequence is predetermined, the power ON signal output and the image data signal may be output. A time difference may be set for the output.

When the user U touches the touch panel 500 with a finger or the like, the touch panel control circuit 440 outputs an operation detection signal and a position detection signal to the operation control unit 410. At this time, while the touch panel detection mask signal is off (time Tp), the operation control unit 410 accepts the signal input from the touch panel control circuit 440, but does not output the touch panel interrupt signal and the coordinate data signal to the main body control unit 110. .. On the other hand, if the operation detection signal is input before the person detection interrupt signal is input, the touch panel interrupt signal and the coordinate data signal are input to the main body control unit 110. As a result, the main body control unit 110 can recognize that the user U is trying to return the image forming apparatus 1 from the power saving state to the normal power state by touching the touch panel 500 with a finger or the like.

On the other hand, since the touch panel interrupt signal and the coordinate data signal are not input over the time Tp, the main body control unit 110 cannot recognize that the user U is trying to restore the image forming apparatus 1 to the power saving state. After the lapse of time Tp, at t5, the operation control unit 410 switches the touch panel mask signal to ON again, and controls the main body of the touch panel interrupt signal and the coordinate data signal corresponding to the operation detection signal and the position detection signal input after t5. Output to unit 110.

(Return processing procedure)
FIG. 7 is a flowchart showing a return processing procedure executed when the image forming apparatus 1 returns from the power saving state to the normal power state in the present embodiment. The processing of the flowchart shown in FIG. 7 is performed by the circuit of the operation control unit 410 executing the program code. Each of the following symbols S means a step in the flowchart. These are the same for the flowchart of FIG.

In S101, it is determined whether or not the person detection signal is input from the person detection sensor control circuit 430. That is, it is determined whether or not the human detection sensor 30 has detected an object such as a person (t1). When a person detection signal is input (S101: YES), the process proceeds to S102. When the person detection signal is not input (S101: NO), the process proceeds to S109.

In S102, the counting of time Ts is started (t1).

In S103, it is determined whether or not the time Ts has elapsed. When the time Ts has elapsed (S103: YES), the process proceeds to S104. If the time Ts has not elapsed (S103: NO), the process proceeds to S110. This time Ts is a time required to determine whether or not an object such as a person detected by the human detection sensor 30 is a user U approaching the image forming apparatus 1.

In S104, the touch panel detection mask signal is switched from on to off (t2).

In S105, counting of time Tp is started (t2).

In S106, the human detection interrupt signal is output to the main body control unit 110 (t3).

In S107, it is determined whether or not the time Tp has elapsed. That is, it is determined whether or not the period in which the output of the touch panel interrupt signal and the coordinate data signal is masked has elapsed. When the time Tp has elapsed, the process proceeds to S108. If the time Tp has not elapsed, the process of S107 is repeated until the mask period elapses.

In S108, the touch panel detection mask signal is switched from off to on (t5). When the touch panel detection mask signal is switched from off to on (S108), the processing of this flowchart ends.

On the other hand, when it is determined in S101 that the person detection signal has not been input, it is determined in S109 whether or not the operation detection signal has been input. That is, it is determined whether or not the user U touches the operation unit 400 with a finger or the like. When the operation detection signal is input (S109: YES), the process proceeds to S111. When the operation detection signal is not input (S109: NO), these signal inputs are continuously monitored until either the person detection signal or the operation detection signal is input.

In S111, the touch panel interrupt signal is output to the main body control unit 110 (t6). At this time, the coordinate data signal may be output to the main body control unit 110 at the same time as the touch panel interrupt signal. When the touch panel interrupt signal is output to the main body control unit 110 (S111), the processing of this flowchart ends.

Further, in S103, when it is determined that the time Ts has not elapsed (S103: NO), in S110, it is determined whether or not the operation detection signal has been input. When the operation detection signal is input (S110: YES), the process proceeds to S111. When the operation detection signal is not input (S110: NO), the process returns to S103 again, and the processing of S103 and S110 is continuously repeated until either the time Tp elapses or the operation detection signal is input.

As described above, according to the present embodiment, when the presence of a person is detected in the image forming apparatus that recognizes the two return factors of the detection by the human detection sensor and the detection by the touch panel, the operation on the touch panel is performed. Is invalidated for a specified period. With such a configuration, the operation input to the touch panel is not accepted immediately after the image forming apparatus returns to the normal power state, so that the image forming apparatus does not start the processing unintended by the user. That is, it is possible to suppress a decrease in work efficiency of work using the image forming apparatus.

[Embodiment 2]
Hereinafter, Embodiment 2 of the present invention will be described below. The description of the parts common to the first embodiment will be simplified or omitted, and the points peculiar to the present embodiment will be mainly described below.

(Control of operation unit)
FIG. 8 is a diagram showing state transitions of each signal in the present embodiment. In the state transition diagram of FIG. 8, the rising edge (signal ON) and the falling edge (signal OFF) of the signal are shown for each type of signal shown in FIG. 2 with the horizontal axis as time t. The control block in the present embodiment is the same as the control block in the first embodiment (FIG. 2).

In the first embodiment, the operation control unit 410 switches the touch panel detection mask signal from on to off (t2), and then sets the mask over a time Tp. On the other hand, in the present embodiment, the operation control unit 410 restarts the timing of the time Tq from the beginning when the operation detection signal is input at the time Tq, and masks when the operation detection signal is not input at the time Tq. Cancel the setting. This is a control in consideration of a use case in which the user U repeatedly hits the touch panel 500 in order to restore the image forming apparatus 1 from the power saving state. That is, when the mask setting is canceled while the user U repeatedly hits the touch panel 500, input to a button (for example, "STOP button 563" or the like) displayed on the touch panel 500 immediately after the mask setting is canceled. May be accepted. Then, the image forming apparatus 1 will execute the process according to the operation not intended by the user. As described above, in the present embodiment, while the user U repeatedly hits the touch panel 500, the time Tq is extended to input to the button displayed on the touch panel 500 immediately after the mask setting is canceled. Avoid being accepted.

At t5, the operation control unit 410 determines whether or not the operation detection signal is input, and if the operation detection signal is input, the time Tq is timed again from the beginning. As a result, the mask period in which the mask is set continues until the time Tq is timed. For example, when the user U repeatedly hits the touch panel 500 with a finger or the like, the state in which the output of the touch panel interrupt signal and the coordinate data signal from the operation control unit 410 is masked continues for a time Tq. Then, when the operation detection signal is not input for the time Tq, the operation control unit 410 switches the touch panel detection mask signal from off to on.

(Return processing procedure)
FIG. 9 is a flowchart showing a return processing procedure executed when the image forming apparatus 1 returns from the power saving state to the normal power state in the present embodiment.

In the present embodiment, in S107, it is determined whether or not the time Tq has elapsed. That is, it is determined whether or not the period in which the output of the touch panel interrupt signal and the coordinate data signal is masked has elapsed. When the time Tq has elapsed, the process proceeds to S108. If the time Tq has not elapsed, the process proceeds to S201.

In S201, it is determined whether or not the operation detection signal is input. That is, it is determined whether or not the user U touches the operation unit 400 with a finger or the like. When the operation detection signal is input (S201: YES), the process proceeds to S202. When the operation detection signal is not input (S201: NO), the processes of S107 and S201 are continuously repeated until either the time Tq elapses or the operation detection signal is input.

In S202, the time Tq count (timekeeping) is reset, and the process returns to the determination process of S107 again. When the time Tq count is reset in S202, the time Tq count starts again from 0, and when it is determined that the time Tq has elapsed (S107: YES), the loop of S107 to S201 is exited and the process proceeds to S108. do.

In the flowchart of FIG. 9, the determination process of S107 and the processes other than S201 to S202 are the same as those of the first embodiment (FIG. 7), and thus the description thereof will be omitted.

As described above, according to the present embodiment, in the return processing of the image forming apparatus, it is possible to perform control in consideration of a use case in which the user repeatedly hits the touch panel. With such a configuration, the operation input to the touch panel is not accepted immediately after the image forming apparatus returns to the normal power state, so that the image forming apparatus does not start the processing unintended by the user. That is, it is possible to suppress a decrease in work efficiency of work using the image forming apparatus.

[Embodiment 3]
Hereinafter, Embodiment 3 of the present invention will be described below. The parts common to the first and second embodiments will be simplified or omitted, and the points peculiar to the present embodiment will be mainly described below.

(Control of operation unit)
In the first and second embodiments, when the human detection sensor 30 detects the presence of the user U, the touch panel interrupt signal and the coordinate data signal are controlled so as not to be output for a predetermined period. On the other hand, the operation control unit 410 of the present embodiment outputs the touch panel interrupt signal and the coordinate data signal to the main body control unit 110 regardless of whether or not the human detection sensor 30 is detected. Then, when the human detection interrupt signal is input from the operation control unit 410, the main body control unit 110 controls so as not to execute the process based on the touch panel interrupt signal and the coordinate data signal for a predetermined period. Hereinafter, a detailed description will be given with reference to FIG.

FIG. 10 is a diagram showing state transitions of each signal in the present embodiment. In the state transition diagram of FIG. 10, the rising edge (signal ON) and the falling edge (signal OFF) of the signal are shown for each type of signal shown in FIG. 2 with the horizontal axis as time t. The control block in the present embodiment is the same as the control block in the first embodiment (FIG. 2).

At t2, the human detection interrupt signal is input from the operation control unit 410.

At t3, in response to the input of the human detection interrupt signal, the main body control unit 110 switches the touch panel detection mask signal from High to Low (signal off). As a result, the touch panel interrupt signal and the coordinate data signal are invalidated over the time Tr (t4). Specifically, while the mask control is being performed, the main body control unit 110 sends the ON signal corresponding to the coordinate data signal and the image data signal to the LCD power supply control circuit 130 and the display control circuit 120, respectively. It is controlled not to output.

After the time Tr has elapsed, at t5, the main body control unit 110 switches the touch panel mask signal to ON again, and the invalidation of the touch panel interrupt signal and the coordinate data signal is canceled.

(Return processing procedure)
FIG. 11 is a flowchart showing a return processing procedure executed when the image forming apparatus 1 returns from the power saving state to the normal power state in the present embodiment. The processing of the flowchart shown in FIG. 11 is performed by the circuit of the main body control unit 110 executing the program code. Each of the following symbols S means a step in the flowchart.

In S301, it is determined whether or not the human detection interrupt signal is input from the operation control unit 410 (t2). When a person detection interrupt signal is input (S301: YES), the process proceeds to S302. When the person detection interrupt signal is not input (S301: NO), the process proceeds to S306.

In S302, the touch panel detection mask signal is switched from on to off (t3).

In S303, the counting of time Tr is started (t3).

In S304, it is determined whether or not the time Tr has elapsed. That is, it is determined whether or not the period during which the touch panel interrupt signal and the coordinate data signal are invalidated has elapsed. When the time Tr has elapsed, the process proceeds to S305. If the time Tr has not elapsed, the process of S304 is repeated until the mask period elapses.

In S305, the touch panel detection mask signal is switched from off to on (t5). After S305, when either the human detection interrupt signal or the touch panel interrupt signal is input from the operation control unit 410, the main body control unit 110 outputs a signal necessary for the return processing of the image forming apparatus 1. Specifically, the main body control unit 110 outputs an ON signal to the LCD power supply control circuit 130, and outputs an image data signal for the initial screen displayed on the LCD 150 immediately after the return to the display control circuit 120. do. When the touch panel detection mask signal is switched from off to on (S305), the processing of this flowchart ends.

On the other hand, when it is determined in S301 that the human detection interrupt signal is not input from the operation control unit 410, it is determined in S306 whether or not the touch panel interrupt signal is input from the operation control unit 410. That is, it is determined whether or not the user U touches the operation unit 400 with a finger or the like. When the touch panel interrupt signal is not input (S306: NO), the process returns to S301 again, and thereafter, these interrupt signals are input until either the human detection interrupt signal or the touch panel interrupt signal is input from the operation control unit 410. Is continuously monitored.

When the touch panel interrupt signal is input (S306: YES), the main body control unit 110 outputs a signal necessary for the restoration process of the image forming apparatus 1.

When the determination process of S306 is completed, the process of this flowchart is completed. The above is the flowchart showing the return processing procedure in the present embodiment, but as described in the second embodiment, even if the main body control unit 110 is made to execute the control in consideration of the use case such that the user repeatedly hits the touch panel. good.

As described above, according to the present embodiment, the main body control unit 110 can invalidate the touch panel interrupt signal and the coordinate data signal input from the operation control unit 410 for a predetermined period. With such a configuration, in addition to the effect in the first embodiment, there is an effect that the degree of freedom in configuring each configuration (circuit or the like) in the control block of FIG. 2 is improved.

[Other Examples]
In the above-described embodiment, an example in which the detection by the touch panel is invalidated when the detection by the human detection sensor is recognized as the recovery factor in the image forming apparatus that operates by switching between the normal power state and the power saving state will be described. did. In other embodiments, the object to which the method of the present invention is applied is not limited to the image forming apparatus, for example, switching between a normal state and a standby state in which a screen saver is displayed and waiting for an operation from a user. It may be an information processing device such as a tablet or a smartphone. In this case, when shifting from the standby state to the normal state according to the detection by the human detection sensor, even if the information processing device is controlled so as to invalidate the operation detection signal input according to the detection by the touch panel for a predetermined period. good. With such a configuration, the information processing apparatus immediately after returning to the normal state does not execute a process unintended by the user, so that it is possible to suppress a decrease in work efficiency of the work using the information processing apparatus.

The present invention supplies a program that realizes one or more functions of the above-described embodiment to a system or device via a network or storage medium, and one or more processors in the computer of the system or device reads and executes the program. It can also be realized by the processing to be performed. It can also be realized by a circuit (for example, ASIC) that realizes one or more functions.

Claims (35)

A display unit that can display information and
A touch sensor that accepts user operations on the display unit,
A motion sensor that can detect the presence of a person in a non-contact manner,
When a user operation to the display unit on which information is not displayed is received by the touch sensor, a screen including a predetermined object for executing a predetermined function is displayed on the display unit, and a user for the predetermined object is displayed. When the operation is accepted by the touch sensor, the control means for executing the predetermined function and the control means.
Equipped with
When the presence of the person is detected by the motion sensor, the control means displays the screen on the display unit, and the screen is displayed on the display unit by detecting the presence of the person by the motion sensor. An image forming apparatus, characterized in that, even if the touch sensor temporarily receives a user operation on the predetermined object, the predetermined function is not executed. When the presence of the person is detected by the motion sensor while the information is not displayed on the display unit, the control means displays the screen on the display unit and the motion sensor detects the person. The present invention is characterized in that the predetermined function is not executed even if the touch sensor temporarily accepts a user operation for the predetermined object after the screen is displayed on the display unit due to the detection of the presence of the. The image forming apparatus according to 1. The image forming apparatus according to claim 1 or 2, wherein the control means displays a screen corresponding to the predetermined object on the display unit by a user operation on the predetermined object. One of claims 1 to 3, wherein the predetermined function is a screen transition from a screen including the predetermined object displayed on the display unit to a screen corresponding to the predetermined object. The image forming apparatus according to the section. The control means has at least an operation control unit that accepts a user operation on the touch sensor and a main body control unit that controls display on the display unit.
After displaying the screen on the display unit by detecting the presence of the person by the motion sensor , the operation control unit temporarily controls the main body to output a signal even if the user operation is received. The image forming apparatus according to any one of claims 1 to 4, wherein the image forming apparatus is not output to a unit. The image forming apparatus according to claim 5, wherein the signal is a coordinate data signal indicating a position on the touch sensor where the user has operated. The control means has at least an operation control unit that accepts a user operation on the display unit and a main body control unit that controls display on the display unit.
After displaying the screen on the display unit by detecting the presence of the person by the motion sensor , the main body control unit temporarily accepts the input of the signal from the operation control unit, but the input is input. The image forming apparatus according to any one of claims 1 to 4, wherein the processing based on the signal is not executed. The image forming apparatus according to claim 7, wherein the signal is a coordinate data signal indicating a position on the touch sensor where the user has operated. The process based on the signal is characterized in that it is a process of generating an image data signal for displaying a screen corresponding to the object on a display unit in response to a position where an operation on the predetermined object is performed. The image forming apparatus according to claim 7 or 8. After the screen is displayed on the display unit by detecting the presence of the person by the motion sensor, the time when the predetermined function is not executed even if the touch sensor accepts a user operation for the predetermined object is measured. Has more timekeeping means,
6. The image forming apparatus described. The image forming apparatus according to any one of claims 1 to 10, wherein the screen including a predetermined object for performing the predetermined function is a home screen. The image forming apparatus according to any one of claims 1 to 11, wherein the human sensor is an ultrasonic sensor. The image forming apparatus according to any one of claims 1 to 11, wherein the motion sensor is an infrared sensor. The image forming apparatus according to any one of claims 1 to 13, wherein the predetermined object for performing the predetermined function is a display in which the predetermined function can be recognized. The image forming apparatus according to any one of claims 1 to 14, further comprising a printing means for forming an image on paper. When the user operation to the display unit where the information is not displayed is received by the touch sensor, the first display step of displaying the screen including the predetermined object for executing the predetermined function on the display unit, and the first display step.
When the user operation on the predetermined object is received by the touch sensor, the execution step of executing the predetermined function and the execution step
When the presence of the person is detected by the motion sensor capable of detecting the presence of the person in a non-contact manner, the second display step of displaying the screen on the display unit and the second display step.
Equipped with
After the screen is displayed on the display unit in the second display step, even if the touch sensor temporarily accepts a user operation for the predetermined object, the predetermined function is not executed. A control method for an image forming apparatus. A program for making a computer function as each means of the image forming apparatus according to any one of claims 1 to 15. A display unit that can display information, a touch sensor that accepts user operations on the display unit, and
A motion sensor that can detect the presence of a person in a non-contact manner,
When a user operation to the display unit on which information is not displayed is received by the touch sensor, a screen including a predetermined object for executing a predetermined function is displayed on the display unit, and the motion sensor displays the screen. When the presence of a person is detected, the screen is displayed on the display unit, and when the user operation for the predetermined object is received by the touch sensor, the control means for executing the predetermined function and the control means.
Equipped with
When the human sensor detects the presence of the person, the control means displays the screen on the display unit, and when a predetermined period has elapsed after the display due to the detection of the presence of the person by the motion sensor. An image forming apparatus characterized in that a user operation on the predetermined object for executing the predetermined function is possible. The image forming apparatus according to claim 18, wherein the user operation received by the touch sensor is invalidated during the predetermined period. When the presence of the person is detected by the motion sensor in a state where the information is not displayed on the display unit, the control means displays the predetermined object, but the motion sensor of the person. The image forming apparatus according to claim 18 or 19, wherein the user operation on the predetermined object is invalidated until a predetermined period elapses after the display due to the detection of the presence. The image forming apparatus according to any one of claims 18 to 20, wherein the control means displays a screen corresponding to the predetermined object on the display unit by a user operation on the predetermined object. .. One of claims 18 to 21, wherein the predetermined function is a screen transition from a screen including the predetermined object displayed on the display unit to a screen corresponding to the predetermined object. The image forming apparatus according to the section. The control means has at least an operation control unit that accepts a user operation on the touch sensor and a main body control unit that controls display on the display unit.
The image according to any one of claims 18 to 22, wherein the signal to be output is not output to the main body control unit in response to the user operation received by the operation control unit during the predetermined period. Forming device. The image forming apparatus according to claim 23, wherein the signal is a coordinate data signal indicating a position on the touch sensor where the user has operated. The control means has at least an operation control unit that accepts a user operation on the display unit and a main body control unit that controls display on the display unit.
13. The image forming apparatus according to. The image forming apparatus according to claim 25, wherein the signal is a coordinate data signal indicating a position on the touch sensor where the user has operated. The process based on the signal is characterized in that it is a process of generating an image data signal for displaying a screen corresponding to the object on a display unit in response to a position where an operation on the predetermined object is performed. 25 or 26. The image forming apparatus according to claim 25 or 26. Further having a timekeeping means for measuring the time over the predetermined period,
18. The timing means is characterized in that, if an operation on the display unit is detected before the timekeeping ends, the timekeeping is restarted from the beginning, and the predetermined period continues until the timekeeping ends. The image forming apparatus according to any one of 27 to 27. The image forming apparatus according to any one of claims 18 to 28, wherein the screen including a predetermined object for performing the predetermined function is a home screen. The image forming apparatus according to any one of claims 18 to 29, wherein the human sensor is an ultrasonic sensor. The image forming apparatus according to any one of claims 18 to 29, wherein the motion sensor is an infrared sensor. The image forming apparatus according to any one of claims 18 to 31, wherein the predetermined object for performing the predetermined function is a display in which the predetermined function can be recognized. The image forming apparatus according to any one of claims 18 to 32, further comprising a printing means for forming an image on paper. When the user operation to the display unit where the information is not displayed is received by the touch sensor, the first display step of displaying the screen including the predetermined object for executing the predetermined function on the display unit, and the first display step.
When the presence of the person is detected by the motion sensor capable of detecting the presence of the person in a non-contact manner, the second display step of displaying the screen on the display unit and the second display step.
When the user operation on the predetermined object is received by the touch sensor, the execution step of executing the predetermined function is provided.
When the motion sensor detects the presence of the person, the screen is displayed on the display unit, and when a predetermined period has elapsed after the display by the detection of the presence of the person by the motion sensor, the predetermined function is performed. A control method of an image forming apparatus, characterized in that a user operation on the predetermined object to be executed is possible. A program for making a computer function as each means of the image forming apparatus according to any one of claims 18 to 33.

Images