JP2020057393A - Image processing device, control method for image processing device, and computer program - Google Patents

Abstract

To provide an image processing device that includes a touch panel with which operation to change display screens is easy.SOLUTION: When a flick operation on a touch panel is detected (flick in S802), the image processing device changes the preview image displayed on a display unit from the preview image being displayed to a preview image in an image file preceding or following, by N files (N=integer of 2 or greater), the image file that corresponds to the preview image being displayed (S809, S812). When a drag operation on the touch panel is detected (drag in S802), the image processing device changes the preview image displayed on the display unit from the previous image being displayed to a preview image in an image file immediately preceding or following the image file that corresponds to the preview image being displayed (S804, S805).SELECTED DRAWING: Figure 8

Description

  The present invention relates to a touch panel used for a user interface of an image forming apparatus such as a copier and a multifunction peripheral.

  Many image forming apparatuses use a touch panel as a user interface. Conventionally, a touch panel is used for a higher-level model capable of increasing the screen size, but in recent years, a touch panel is sometimes used for a lower-level model having a small screen size. In a lower model having less hardware resources than in a higher model, it is necessary to control display of an image displayed on the touch panel by a method different from that of the higher model.

  Some image forming apparatuses using a touch panel have a function of previewing an image file to be printed. When switching the image file to be previewed, the user drags or flicks the touch panel, for example. By switching the image file to be previewed, the preview display screen changes. Patent Literature 1 discloses a technique of transitioning a screen based on a moving direction and a moving amount when a user traces a touch panel.

JP 2006-302184 A

  In the technique of Patent Literature 1, the screen is changed according to the amount of movement when the user touches the touch panel. However, since the operation strength when tracing the touch panel differs for each user, the amount of transition may not be constant even if the same operation is performed.

  According to the present invention, in order to solve the above-described problem, screen transition is performed by a predetermined amount according to a type of a touch event detected on a display of a touch panel. Accordingly, it is a main object to provide an image processing apparatus provided with a touch panel that facilitates an operation for changing screen display.

  An image processing apparatus according to the present invention that solves the above-described problems includes a detection unit that detects a touch operation on a display unit, a display control unit that displays a preview image of one image file among a plurality of image files on the display unit, Wherein the display control unit changes a preview image displayed on the display unit from a preview image being displayed to a preview image being displayed according to detection of a flick operation as a touch operation by the detection unit. To the preview image of the image file N (N is an integer of 2 or more) before or after the image file corresponding to, and is displayed on the display unit in accordance with the detection operation detecting a drag operation as a touch operation. The preview image to be displayed is from the currently displayed preview image to one before the image file corresponding to the currently displayed preview image. It is characterized by the transition to the preview image of the image file behind.

  According to the present invention, screen transition is performed by a predetermined amount according to the type of touch event on the display of the touch panel. This makes it possible to perform image display in which an operation for transitioning the screen display is easy.

FIG. 2 is a hardware configuration diagram of the MFP. FIG. 2 is an exemplary external view of an operation unit. FIG. 4 is an explanatory diagram of a touch event determination criterion. FIG. 9 is an explanatory diagram of screen transition by flick and drag. FIG. 9 is an explanatory diagram of screen transition by flick and drag. FIG. 9 is an explanatory diagram of screen transition by flick and drag. FIG. 9 is an explanatory diagram of screen transition by flick and drag. 9 is a flowchart illustrating screen transition processing. 9 is a flowchart illustrating screen transition processing. 9 is a flowchart illustrating screen transition processing. 9 is a flowchart illustrating screen transition processing. 9 is a flowchart illustrating screen transition processing.

  Hereinafter, embodiments will be described in detail with reference to the drawings.

  FIG. 1 is a hardware configuration diagram of an MFP (Multi Function Peripheral) 100 which is an example of an image forming apparatus. The MFP 100 includes a control unit 101, a printing unit 107, a reading unit 109, an operation unit 110, and a line interface (I / F) 112. Control unit 101 controls the operation of MFP 100 as a whole. The printing unit 107 performs an image forming process based on the image file, and forms an image on a sheet. The reading unit 109 reads an image from a document. The operation unit 110 is a user interface in which a display for displaying an image and an input unit for inputting a user's instruction are integrally formed. The line I / F 112 is a communication interface for performing communication with another device via the public line network 114. The MFP 100 is a type of information processing device that can communicate with other devices and controls the operations of the printing unit 107 and the reading unit 109 to perform image forming processing.

Control unit 101 includes a CPU (Central Processing Unit) 102 that controls the operation of MFP 100 by controlling the operation of components in control unit 101. The CPU 102 controls the operation by reading a computer program stored in a program area of a ROM (Read Only Memory) 104 and executing the computer program using a RAM (Random Access Memory) 103 as a work area. The ROM 104 stores, in addition to the program area, a font area for storing a font of an image displayed on the display of the operation unit 110 and device information for the MFP 100, and data for storing user directory information, department management information, image files, and the like. With regions.
Note that the CPU 102 may be configured to read a computer program from a mass storage device (not shown).

  The control unit 101 also includes a printing unit I / F 106, a reading unit I / F 108, a modem 111, a USB (Universal Serial Bus) I / F 115, a network I / F 116, a wired communication unit 117, and a wireless communication unit 118. Prepare. Each component in the control unit 101 is communicably connected by a system bus 105.

  The printing unit I / F 106 is an interface for transmitting and receiving various data to and from the printing unit 107. The reading unit I / F 108 is an interface for transmitting and receiving various data to and from the reading unit 109. The CPU 102 reads an image from a document by controlling the operation of the reading unit 109 via the reading unit I / F 108, and controls the operation of the printing unit 107 via the printing unit I / F 106, thereby reading the read image. An image forming process using an image file is performed.

  The modem 111 performs facsimile communication and telephone communication via the public line network 114 via the line I / F 112. The USB I / F 115 is an interface to which a USB device can be connected. The USB device connected to the USB I / F 115 includes an external memory such as a USB memory or a USB-connected mass storage device.

  The network I / F 116 is an interface for communicating with the network 121 by the wired communication unit 117 and the wireless communication unit 118. The network 121 is a network such as a LAN (Local Area Network), a WAN (Wide Area Network), and the Internet.

  The MFP 100 can acquire an image file to be previewed from the reading unit 109, the modem 111, the USB I / F 115, the network I / F 116, the data area of the ROM 104, and a large-capacity storage device (not shown). MFP 100 stores the image file acquired from reading unit 109, modem 111, and network I / F 116 in RAM 103. When previewing an image file acquired from an external memory via the USB I / F 115, the MFP 100 acquires an image file to be previewed each time. The image files are sorted and stored in the RAM 103, the external memory, the ROM 104, or the large-capacity storage device by the file name and the update date and time. MFP 100 can sequentially switch the preview of the image file in the sort order.

  FIG. 2 is an exemplary external view of the operation unit 110. The operation unit 110 includes a touch panel 201 and hard keys 202. The touch panel 201 is configured by integrally combining a display and a position input device. The hard key 202 includes a plurality of operation buttons such as a numeric keypad and a start key. The CPU 102 receives an instruction from a user by operating the touch panel 201 and the hard keys 202. Further, the CPU 102 displays, on the display of the touch panel 201, characters, symbols, and images corresponding to the font information, particularly, a preview of an image file in the present embodiment. The touch panel 201 detects a position touched on the touch panel 201 by a user's finger, a stylus pen, or the like. Hereinafter, an example of operating with a finger will be described. The CPU 102 acquires position information indicating a position detected by the touch panel 201, and determines a touch event, which is an operation content by the user, according to a change in the position information.

FIG. 3 is an explanatory diagram of criteria for determining a touch event by the CPU 102. The CPU 102 executes a process according to the touch event. Touching a finger on the touch panel 201 is referred to as “tap-in”, and releasing a finger from the touch panel 201 is referred to as “tap-out”.
Paying a finger while tapping in is called "flick". Sliding your finger while tapping in is called "drag".

  When the user touches the touch panel 201, a tap-in event occurs. CPU 102 determines that a tap-out event has occurred when the user moves the finger less than distance a from the position where the tap-in event has occurred and separates from touch panel 201. CPU 102 determines that a drag event has occurred when the user moves the finger from the position where the tap-in event has occurred by a distance a or more. CPU 102 determines that a flick event has occurred when the user quickly moves his or her finger away from touch panel 201 by a distance b or more from the position where the tap-in event has occurred. CPU 102 determines that a tap-out event has occurred when the user moves his finger less than distance a from the position where the drag event has occurred and separates from touch panel 201. CPU 102 determines that a flick event has occurred when the user moves his / her finger away from touch panel 201 by a distance b or more from the position where the drag event has occurred. In the case of a flick event, the CPU 102 determines the strength of the finger in accordance with the distance that the finger has moved before leaving the touch panel 201.

  4 to 7 are explanatory diagrams of screen transition by flick and drag. A plurality of types of screens can be displayed on the display of the touch panel 201. Here, four types of screens displayed when the user uses MFP 100 will be described as an example.

  FIG. 4 illustrates an operation on the home screen for selecting a function of the MFP 100 such as a copy or a scanner. Each function is associated with an icon displayed on the home screen. By operating an icon, the user can instruct MFP 100 to execute a function associated with the icon. When the user flicks or drags the touch panel 201 while the home screen is displayed, the CPU 102 determines that a flick event or a drag event has occurred. The CPU 102 transitions the home screen in a flick or drag direction according to the determination result. The screen transition is not a page switch, but a series of screens including the current screen and the transition destination screen as shown in FIG. The display of the screen during the transition as a series of screens is called “intermediate description”. In FIG. 4, a transition is made from the “current screen” on the left to the “destination screen” on the right, and the two screens between them are intermediate descriptions.

  The amount of transition is fixed irrespective of the strength of the finger flicked or the moving distance of the finger by dragging. That is, when the CPU 102 determines that a flick event or a drag event has occurred while the home screen is being displayed, the CPU 102 transitions the current screen to a transition destination screen via a predetermined intermediate description. The home screen has a small number of screens and displays a plurality of icons for selecting functions on one screen. If the screen changes quickly according to the strength of the finger flicked or the moving distance of the finger due to dragging, the icons become difficult to see. For this purpose, the screen transition is fixed from the “current screen” to the “transition destination screen”.

  FIG. 5 shows an operation on the copy screen when copying is performed. A plurality of items for performing various settings of the copy operation are displayed on the copy screen. Items can be moved up and down by flicking and dragging. When the user flicks or drags the touch panel 201 while the copy screen is displayed, the CPU 102 determines that a flick event or a drag event has occurred. The CPU 102 changes the screen by moving the item in the flick or drag direction according to the determination result. In a flick, items on multiple lines move according to the strength of the finger. In dragging, items move according to the movement of the finger. By such an operation, a desired item can be quickly displayed.

  FIG. 6 illustrates an operation on the transmission screen when performing facsimile transmission. The transmission screen is provided with an area for performing various settings for facsimile transmission. When the user flicks or drags the touch panel 201 while the transmission screen is displayed, the CPU 102 determines a flick event or a drag event. The CPU 102 changes the display content of the “destination display area” for displaying, for example, the address of the transmission destination, in the flick or drag direction according to the determination result. The change is performed by making a transition to the next address in a fixed manner regardless of the strength of the finger flicked by the flick or the moving distance of the finger by dragging. By making the display change by flicking or dragging the same, the user can easily confirm the transmission destination.

  FIG. 7 illustrates an operation on a preview screen that displays a preview of an image file to be printed. The preview screen is provided with a preview display area for displaying a preview. The image file to be preview-displayed is stored in the ROM 104, an external storage device connected to the USB I / F 115 or the network 121, or a large-capacity storage device (not shown). When the user performs a flick or a drag on the preview display area of the touch panel 201, the CPU 102 determines a flick event or a drag event. The CPU 102 changes the image file to be preview-displayed to the next image file according to the determination result.

  In the case of a flick, the CPU 102 performs transition display for, for example, five image files and performs preview display. In the case of dragging, the CPU 102 shifts by one image file and performs preview display. A page number is displayed on the preview screen, and it is possible to confirm how many images have changed in preview. At the time of transition for five image files, a preview of each image file to be transitioned may be temporarily displayed. This allows the user to confirm that the image has transitioned.

  8 to 12 are flowcharts illustrating a display control process for transitioning a screen displayed on the touch panel 201 by a touch event.

  When the user touches the touch panel 201, the CPU 102 acquires position information indicating the position touched from the operation unit 110 (S800). The CPU 102 that has acquired the position information checks whether the screen currently displayed on the touch panel 201 is a preview screen (S801). When it is not the preview screen (see FIG. 7) (S801: N), the CPU 102 performs the process A. Processing A will be described later.

  If the screen is a preview screen (S801: Y), the CPU 102 determines a touch event (S802). The CPU 102 makes the determination based on the determination criterion described in FIG.

  If the touch event is a drag event (S802: drag), the CPU 102 determines the moving direction of the finger due to the drag (S803). If the moving direction of the finger is left (S804: left), the CPU 102 transitions the image file being preview-displayed to a later image file in the sort order and performs preview display (S804). When the moving direction of the finger is right (S803: right), the CPU 102 shifts the preview-displayed image file to the preceding image file in the sort order and performs the preview display (S805). The CPU 102 changes the preview display and ends the process. The CPU 102 does not perform the intermediate rendering at the time of the transition of the preview display.

  If the touch event is a flick event (S802: flick), the CPU 102 determines the moving direction of the finger due to the flick (S806). When the moving direction of the finger is left (S806: left), the CPU 102 determines whether the number of image files following the image file being preview-displayed in the sort order is less than N (N is an integer of 2 or more). (S807). If the number is less than N (S807: Y), the CPU 102 shifts the preview-displayed image file to the last image file in the sort order and performs the preview display (S808). If the number is N or more (S807: N), the CPU 102 transitions the preview-displayed image file to the image of the N-backward image file in the sort order and performs the preview display (S809). The CPU 102 changes the preview display and ends the process. The CPU 102 does not perform the intermediate rendering at the time of the transition of the preview display.

  If the touch event is a flick event and the moving direction of the finger is right (S806: right), the CPU 102 determines whether the number of image files ahead in the sort order from the image file currently being previewed is less than N (S806). S810). If the number is less than N (S810: Y), the CPU 102 shifts the preview-displayed image file to the first image file in the sort order and performs the preview display (S811). When the number is N or more (S810: N), the CPU 102 shifts the image file being preview-displayed to the image file N ahead in the sort order and performs the preview display (S812). The CPU 102 changes the preview display and ends the process. The CPU 102 does not perform the intermediate rendering at the time of the transition of the preview display.

  If the touch event is a tap event (S802: tap), the CPU 102 determines whether the tap event is tap-in (S813). If it is a tap-in (S813: tap-in), the CPU 102 sets the item displayed at the tapped-in position to a selected state and ends the processing (S814). If it is a tap-out (S813: tap-out), the CPU 102 executes an operation of determining an item displayed at the tapped-out position, and ends the processing (S815).

  As described above, when the user performs a flick during the display of the preview screen, the MFP 100 transitions the N image files according to the direction of the flick to perform the preview display. Further, if the user drags while the preview screen is being displayed, MFP 100 transitions one image file according to the direction of the drag and performs preview display.

  If the screen displayed on the touch panel 201 is not the preview screen, the CPU 102 determines the screen being displayed as in processing A shown in FIG. 9 (S900).

  When the screen being displayed is the home screen (see FIG. 4) (S900: home screen), as shown in FIG. 10, the CPU 102 determines a touch event based on the criterion described in FIG. 3 (S1000).

  If the touch event is a drag event or a flick event (S1000: drag, flick), the CPU 102 checks the moving direction of the finger due to the drag or flick, and transitions the screen to that direction (S1001). The CPU 102 performs the intermediate description during the transition of the screen. If the touch event is tap-in (S1000: tap-in), the CPU 102 sets the item displayed at the tapped-in position to the selected state and ends the process (S1002). If the touch event is a tap-out (S1000: tap-out), the CPU 102 executes an operation of determining an item displayed at the tapped-out position, and ends the process (S1003).

  When the screen being displayed is a copy screen (see FIG. 5) (S900: copy screen), as shown in FIG. 11, the CPU 102 determines a touch event based on the criterion described in FIG. 3 (S1100).

  If the touch event is a drag event (S1100: drag), the CPU 102 transitions the screen while performing an intermediate depiction following the movement of the finger by the drag (S1101). If the touch event is a flick event (S1100: flick), the CPU 102 transitions the screen while performing intermediate depiction according to the amount of movement of the finger due to the flick (S1102).

  If the touch event is tap-in (S1100: tap-in), the CPU 102 sets the item displayed at the tapped-in position to the selected state and ends the processing (S1103). If the touch event is a tap-out (S1100: tap-out), the CPU 102 executes an operation of determining an item displayed at the tapped-out position, and ends the processing (S1104).

  When the screen being displayed is the operation screen (see FIG. 6) (S900: operation screen), as shown in FIG. 12, the CPU 102 determines a touch event based on the criterion described in FIG. 3 (S1200).

  If the touch event is a drag event or a flick event (S1200: drag, flick), the CPU 102 checks the moving direction of the finger due to the drag or flick, and transitions the screen to that direction (S1201). The CPU 102 does not perform the intermediate description during the transition of the screen. If the touch event is tap-in (S1200: tap-in), the CPU 102 sets the item displayed at the tapped-in position to the selected state and ends the process (S1202). If the touch event is tap-out (S1200: tap-out), the CPU 102 executes an operation of determining an item displayed at the tapped-out position and ends the processing (S1203).

  When the screen displayed on the touch panel 201 is other than the home screen, the copy screen, the transmission screen, and the preview screen, the CPU 102 executes any processing when these screens are displayed.

  In the present embodiment as described above, by performing the processing in accordance with the type of the touch event on the display of the touch panel 201, the operation for transitioning the screen display can be facilitated. In addition, since the screen is shifted by a predetermined amount according to the type of the detected touch event, a uniform operation result can be obtained without depending on the operation intensity different for each user.

  100 MFP, 101 control unit, 107 printing unit, 109 reading unit, 110 operating unit, 112 line I / F, 201 touch panel, 202 hard keys

The image processing apparatus of the present invention to solve the above problems includes a receiving means for receiving flick operation or drag operation by the user, and a display control means for displaying an image on a display unit, wherein the display control means, said reception In accordance with the flick operation received by the means, regardless of the strength of the flick operation, an image N (N is an integer of 2 or more) before or after the image displayed on the display means is displayed on the display means. Then, according to the drag operation accepted by the accepting unit, an image one before or one behind the image displayed on the display unit is displayed on the display unit .

Claims (1)

Detecting means for detecting a touch operation on the display unit;
Display control means for displaying a preview image of one image file among the plurality of image files on the display unit,
The display control means,
In response to the detection unit detecting a flick operation as a touch operation, the preview image displayed on the display unit is changed from the currently displayed preview image to N image files corresponding to the currently displayed preview image (where N is Transitions to the preview image of the previous or next image file,
In response to the detection of a drag operation as a touch operation by the detection unit, the preview image displayed on the display unit is shifted from the currently displayed preview image by one before or after the image file corresponding to the currently displayed preview image. An image processing apparatus that transits to a preview image of the image file.

Images