JP2015148872A - Control device of touch panel display, and image forming apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To decentralize coordinate areas to be operated on a touch panel, to extend the service life of a touch panel display.SOLUTION: A control device of a touch panel display includes: a button operation counter section 24 which detects that a function button has been operated, and counts the number of operations on the function button; a coordinate operation counter section 23 which detects that a coordinate area has been operated, and counts the number of operations on the coordinate area; and a button allocation section 25 which compares the number of operations on each of function buttons with the number of operations on each of the coordinate areas, to change allocation of the function buttons for the coordinate areas, when a ratio between the number of operations on each of the coordinate areas and the number of operations on each of the function buttons exceeds a reference multiple value as a result of comparison.

Description

  The present invention relates to a touch panel display control apparatus and an image forming apparatus suitable for extending the life of a touch panel display.

In recent years, touch panel displays have become widespread due to their ease of use. The touch panel is composed of a resistive film, an electrostatic induction type, or the like. In the case of using a resistive film as a kind of the structure of the touch panel display, the short keying life is a disadvantage. There is already known a technique for preventing the resistance film from deteriorating and extending its life by avoiding the same position on the touch panel display being operated.
In addition, when the resistance film is deteriorated, a technique for extending the life of the entire touch panel display by changing the position of the function button displayed on the touch panel display is already known.

As such conventional techniques, Patent Documents 1 to 3 disclose the following points.
In Patent Document 1, in order to extend the life of the touch panel, in order to avoid pressing the same coordinates, the position of the operation is changed by freely changing the position of a small button within the touch sensitive area of the function. A configuration is disclosed in which is distributed.
In Patent Document 2, for the purpose of extending the life of the touch panel, when it is determined that the operated coordinates are deteriorated by comparing whether the operated coordinates are deteriorated or not and comparing the reference resistance value. Has disclosed a configuration in which the position of a button at a position having degraded coordinates is changed.
Patent Document 3 discloses a configuration in which the number of times a button is operated is counted for the purpose of extending the life of the touch panel, and the position of the button is changed when the count is operated more than a certain value.

However, the conventional technique cannot reliably prevent deterioration, and the method of changing the position of the function button has a problem that the usability is deteriorated. In addition, additional parts are required, which causes problems such as complicated circuit and control and increased cost.
Patent Document 1 discloses that operation positions are dispersed. However, since the sensitive position itself does not change, the problem that deterioration cannot be reliably prevented has not been solved.
In patent document 2, the point of preventing degradation and preventing malfunction is disclosed. However, the total deterioration value for each input area is calculated using the coordinate deterioration value and the number of inputs as variables, the maximum and minimum values of the total deterioration value calculated for each input area are extracted, and the input area where the total deterioration value is the maximum value. Since the display pattern of the touch key set to “2” is moved to the input area where the total deterioration value is the minimum value, the function button is moved to a position different from the conventional case, so that the usability is not solved.
In patent document 3, the point of preventing degradation and preventing malfunction is disclosed. However, when the operation number of the operation key is counted and the count number becomes larger than a preset comparison setting value, the arrangement of the operation key with the increased count number is changed to a new operation key, which is different from the conventional one. The problem that user-friendliness becomes worse because the function button moves to the position has not been solved.
The present invention has been made in view of the above, and an object thereof is to disperse coordinate regions on a touch panel to be operated, and to extend the life of a touch panel display.

  In order to solve the above-mentioned problem, the invention according to claim 1 is detected when a plurality of function buttons displayed on the touch panel display correspond to the function buttons on a one-to-one basis and the function buttons are operated. A control device for a touch panel display comprising a plurality of coordinate regions, wherein the coordinate region is detected by detecting that the function button has been operated, and counting the number of times the function button has been operated, and the coordinate region A coordinate operation frequency counting means that counts the number of operations in the coordinate area, and compares the number of operations for each function button with the number of operations for each coordinate area, and as a result of the comparison, When the ratio between the number of operations for each coordinate area and the number of operations for each function button exceeds a reference multiple value, the function buttons are assigned to the coordinate areas. Characterized in that and a button assignment means for changing.

  According to the present invention, the number of operations for each function button is compared with the number of operations for each coordinate area, and as a result of the comparison, the ratio between the number of operations for each coordinate area and the number of operations for each function button exceeds a reference multiple value. In this case, by changing the assignment of each function button to each coordinate area, the coordinate area on the touch panel to be operated can be dispersed, and the life of the touch panel display can be extended.

It is a figure for demonstrating the block configuration of the operation display apparatus applicable to the control apparatus of the touchscreen display concerning embodiment of this invention. It is a schematic diagram which shows an example of the coordinate area | region corresponding to the display screen displayed on the touchscreen display part shown in FIG. It is a schematic diagram for demonstrating the relationship between the display area of the display provided in the touchscreen display part shown in FIG. 1, and image information. It is a figure for demonstrating the block configuration of the operation display apparatus applicable to the control apparatus of the touchscreen display concerning 2nd Embodiment of this invention. It is FIG. (1) for demonstrating an example of the determination method of a screen stop position. It is FIG. (2) for demonstrating an example of the determination method of a screen stop position. FIG. 9 is a third diagram illustrating an example of a method for determining a screen stop position. It is a figure explaining operation | movement of the operation display apparatus applicable to the control apparatus of the touchscreen display which concerns on 3rd Embodiment of this invention. It is a figure explaining operation | movement of the operation display apparatus applicable to the control apparatus of the touchscreen display which concerns on 4th Embodiment of this invention. (A)-(d) is explanatory drawing which shows displaying a function selection screen by pop-up.

An embodiment of the present invention will be described.
The present invention has the following characteristics when controlling a resistive touch panel display. In short, both the number of operations of the operated coordinate area and the number of operations of the operated function button are counted. Distribute the coordinate area on the touch panel to be operated by placing function buttons with a higher number of operations in a coordinate area with a smaller number of operations, or function buttons with a smaller number of operations in a coordinate area with a greater number of operations. It is possible to do it.

The features of the present invention will be described in detail with reference to the following drawings.
<First Embodiment>
FIG. 1 is a diagram for explaining a block configuration of an operation display device 1 applicable to a control device for a touch panel display according to an embodiment of the present invention.
The basic configuration will be described with reference to the block diagram of the operation display device 1 shown in FIG.
The operation display device 1 includes an information input / output device 10 and a control device 20.
The information input / output device 10 includes a touch panel display unit 11, a coordinate information output unit 12, and a drawing unit 13.
The touch panel display unit 11 includes a touch panel 11a that is placed on a display screen of a liquid crystal substrate that constitutes the display, and in response to a user's pressing operation on a specific area on the touch panel, each area on the touch panel 11a. The ON / OFF state is output to the coordinate information output unit 12.
The touch panel display unit 11 displays a plurality of function buttons, has a one-to-one correspondence with each function button, and has a plurality of coordinate areas detected when the function buttons are operated.
The coordinate information output unit 12 converts the ON / OFF state of each area on the touch panel input from the touch panel display unit 11 into coordinate information on the touch panel and sends it to the control device 20 in response to a pressing operation on the touch panel 11a by the user. Output.
The drawing unit 13 draws and displays drawing information input from the control device 20 on the touch panel display unit 11.

The control device 20 includes a coordinate information input unit 21, a coordinate operation frequency counter unit 23, a button operation frequency counter unit 24, a button allocation unit 25, an image information output unit 26, a display area moving unit 27, and a control unit 28.
The coordinate information input unit 21 detects the operated coordinates and the operated function buttons based on the coordinate information input from the information input / output device 10, and sets the coordinate information and function information representing the detection result as the number of coordinate operations. The data is output to the counter unit 23 and the button operation frequency counter unit 24.
The coordinate operation number counter 23 has a different counter for each coordinate area, detects that a specific coordinate area is operated, and the counter in charge of the coordinate area counts the number of operations.
The button operation frequency counter unit 24 refers to the allocation information input from the image information output unit 26, has a different counter for each function button, detects that a specific function button has been operated, and selects the function button. The counter in charge counts the number of operations.

The button allocation unit 25 inputs the number of operations for each function button from the button operation number counter unit 24 and the number of operations for each coordinate area from the coordinate operation number counter unit 23, and the number of operations for each function button and the coordinate region Compare the number of operations for each. Furthermore, when the ratio of the number of operations for each coordinate area and the number of operations for each function button exceeds the reference multiple value as a result of the comparison, the button assignment unit 25 changes the assignment of each function button to each coordinate area. To do.
When changing the assignment of each function button to each coordinate area, the button assigning unit 25 places the function button with a large number of operations at a coordinate with a small number of operations, and sets the function button with a small number of operations to a coordinate with a large number of operations. And the arrangement result is output to the image information output unit 26 as allocation information.
The image information output unit 26 outputs the allocation information obtained from the button allocation unit 25 to the button operation frequency counter unit 24 and outputs drawing data including the allocation information obtained from the button allocation unit 25 to the information input / output device 10. .
Table 1 is a table showing allocation information composed of function button layout positions and texts corresponding to the layout positions.

With reference to the schematic diagram shown in FIG. 2, the correspondence between the touch panel display unit 11 and the coordinate area will be described. FIG. 2 is a schematic diagram illustrating an example of a coordinate area corresponding to a display screen displayed on the touch panel display unit 11.
As shown in FIG. 2, the physical position of the touch panel 11 a provided in the touch panel display unit 11 is handled by being divided into several regions. In the example shown in FIG. 2, there are three divisions in the horizontal direction and two divisions in the vertical direction, that is, six divisions (Aa, Ab, Ba, Bb, Ca, Cb).
The touch panel display unit 11 outputs the ON / OFF state of each area on the touch panel 11a to the coordinate information output unit 12 in response to a pressing operation on the touch panel by the user.
The coordinate information output unit 12 converts the ON / OFF state of each area on the touch panel 11a input from the touch panel display unit 11 into coordinate information on the touch panel 11a in response to a pressing operation on the touch panel 11a by the user. 20 is output. At this time, any one of the coordinates Aa, Ab, Ba, Bb, Ca, and Cb is output to the control device 20 from the coordinate information output unit 12 in accordance with the pressing operation on the touch panel 11a by the user.

With reference to the schematic diagram shown in FIG. 3, the relationship between the display area 11b of the display provided in the touch panel display unit 11 and the image information 11c will be described. FIG. 3 is a schematic diagram for explaining the relationship between the display area 11b of the display provided in the touch panel display unit 11 and the image information 11c.
The drawing unit 13 has a VRAM (not shown) for expanding the image information, and displays the image information read from the VRAM at the display rate on the display screen of the display, that is, the display area shown in FIG.
Here, the display area 11b of the display is the same in the vertical direction as compared with the image information 11c developed in the VRAM, but the image information 11c is about twice as long in the horizontal direction, for example.
Thus, the purpose of configuring the image information 11c to be longer in the horizontal direction than the display area 11b is that the number of function buttons included in the image information 11c is greater than the number of function buttons displayed in the display area 11b. Because there are many.

To display the portion of the image information that is not displayed in the display area 11b of the display shown in FIG. 3, flick operation on the touch panel 11a (operation in which the user moves the finger left and right while touching the touch panel with a finger or the like) Need to do. When the flick operation is performed, the reading position of the image information read from the VRAM is changed. As a result, the display area 11b of the display moves and the desired image information can be displayed. In response to the flick operation, the reading position of the image information having the function buttons can be moved and displayed in the display area 11b, and all the function buttons can be displayed partly.
Therefore, the control device 20 shown in FIG. 1 includes a display area moving unit 27 and a control unit 28.
The display area moving unit 27 detects a flick operation on the touch panel display 11 based on the coordinate information input from the coordinate information input unit 21, and displays a part of the function button screen according to the flick operation. Move the area.
When the display area is moved in response to the flick operation, the control unit 28 controls the display position (read position from the VRAM) of the function button with the large number of operations in the coordinate area with the small number of operations. Note that the reading position from the VRAM may be controlled so as to loop from the right end position to the left end position of the image information 11c shown in FIG.

  With reference to the table shown in Table 2, the detailed configuration and count result of the coordinate operation number counter 23 will be described. Table 2 is a table for explaining the detailed configuration of the coordinate operation number counter 23 and the count result.

As shown in Table 2, the coordinate operation number counter 23 has a different number counter column and rank column for each coordinate area on the RAM, detects that a specific coordinate area has been operated, The counter in charge counts the number of operations and stores it in the table 23a.
When the user presses a function button or performs a flick operation, the coordinate operation number counter 23 counts the number of times each coordinate is operated, and stores the number of operations for each coordinate in the table 23a.
Further, as shown in Table 2, the coordinate operation number counter unit 23 may have a rank column in the table 23a and sequentially update the ranks 1 to 6 in descending order of the number of times for each coordinate.

  With reference to the table shown in Table 3, the detailed configuration and count result of the button operation frequency counter unit 24 will be described. Table 3 is a table for explaining a detailed configuration of the button operation number counter 24 and a count result.

As shown in Table 3, the button operation number counter unit 24 has a different number counter column and rank column for each function button on the RAM, detects that a specific function button has been operated, and selects the function button. The counter in charge counts the number of operations and stores it in the table.
When the user presses a function button or performs a flick operation, the button operation number counter 24 counts the number of times each function button is operated, and stores the number of operations for each function button in a table.
Further, as shown in Table 3, the button operation number counter unit 24 may have a rank column in the table, and sequentially update the ranks 1 to 12 in descending order of the number of times for each function.
The button operation number counter unit 24 stores the number of operation of the function button for the upper screen such as the image information shown in FIG. In addition to this, for example, when the destination list is displayed after the FAX button is selected, the button operation number counter 24 counts the number of operations related to the destination button, thereby providing a deeper hierarchy than the upper screen. The function buttons may be counted for the middle screen and the lower screen.
Further, the button operation frequency counter unit 24 may be configured to count the function buttons displayed on at least one layer of the operation screen displayed on the touch panel display.

Next, with reference to FIGS. 1-3, operation | movement of the operation display apparatus 1 applicable to the control apparatus of the touchscreen display which concerns on 1st Embodiment of this invention is demonstrated.
The drawing unit 13 draws and displays drawing information input from the control device 20 on the touch panel display unit 11. For example, as shown in FIG. 3, some of the plurality of function buttons are displayed in the display area 11 b of the touch panel display unit 11.
When the user performs a pressing operation on the touch panel 11a, the ON / OFF state of each area on the touch panel is input from the touch panel display unit 11 to the coordinate information output unit 12 in accordance with the pressing operation on the touch panel 11a by the user. The coordinate information output unit 12 converts the ON / OFF state of each area on the touch panel into coordinate information on the touch panel and outputs it to the control device 20.

Next, the coordinate information input unit 21 detects the operated coordinate and the operated function button based on the coordinate information input from the information input / output device 10, and coordinates the coordinate information and the function information representing the detection result respectively. The data is output to the operation frequency counter unit 23 and the button operation frequency counter unit 24.
When the user presses a function button or performs a flick operation, the coordinate operation number counter 23 counts the number of times each coordinate is operated, and stores the number of operations for each coordinate in a table.
Further, as shown in Table 2, the coordinate operation number counter 23 has a rank column in the table, and sequentially updates the ranks 1 to 6 in descending order of the number of times for each coordinate.
When the user presses a function button or performs a flick operation, the button operation number counter 24 counts the number of times each function button is operated, and stores the number of operations for each function button in a table.
Further, as shown in Table 3, the button operation number counter unit 24 has a rank column in the table, and sequentially updates the ranks 1 to 12 in descending order of the number of times for each function.

Next, the button assignment unit 25 inputs the number of operations for each function button from the button operation number counter unit 24 and the number of operations for each coordinate area from the coordinate operation number counter unit 23, and the number of operations for each function button. Compare the number of operations for each coordinate area. Furthermore, when the ratio of the number of operations for each coordinate area and the number of operations for each function button exceeds the reference multiple value as a result of the comparison, the button assignment unit 25 changes the assignment of each function button to each coordinate area. To do.
For example, the button allocating unit 25 ranks the number of operations “472” (see Table 3) for the function “monochrome copy” ranked first among the number of operations for each function button and the number of operations for each coordinate area. Compare the number of operations “874” (see Table 2) of the coordinate “Ba” that is ranked first. Further, as a result of the comparison, when the ratio “874/472” between the number of operations for each coordinate area and the number of operations for each function button exceeds the reference multiple value, for example, “2”, The allocation information indicating the allocation of each function button to the coordinate area is changed.
In addition to the above-described method, when the ratio of the number of operations when the rank is second among the number of operations for each function button and the number of operations for each coordinate area exceeds the reference multiple value, each coordinate You may comprise so that the allocation information which shows allocation of each function button with respect to an area | region may be changed.

  In this way, when the number of operations for each function button is compared with the number of operations for each coordinate area, and as a result of the comparison, the ratio between the number of operations for each coordinate area and the number of operations for each function button exceeds the reference multiple Further, the assignment of each function button to each coordinate area is changed. Thereby, the coordinate area | region on the touch panel operated can be disperse | distributed and a touch panel display can be extended in lifetime.

Here, when changing the assignment of each function button to each coordinate area, the button assigning unit 25 places the function button with a large number of operations in the coordinate with a small number of operations, and sets the function button with a small number of operations to the number of operations. The image information output unit 26 outputs the arrangement result as allocation information.
When a function button with a large number of operations is arranged at a coordinate with a small number of operations, for example, the function “monochrome copy” (see Table 3), which is the function button with the largest number of operations, is assigned to a coordinate “Cb” (Table 2), and allocation information is obtained as an arrangement result.
On the other hand, when a function button with a small number of operations is arranged at a coordinate with a large number of operations, for example, the function button “network setting” (see Table 3) with the smallest number of operations is placed at a coordinate “Ba” (Table 2) The allocation information is obtained as the arrangement result.
Table 4 is a table showing allocation information composed of the layout positions of function buttons after updating and text data corresponding to the layout positions.

Next, the image information output unit 26 outputs the allocation information obtained from the button allocation unit 25 to the button operation frequency counter unit 24, generates drawing information from the allocation information, and outputs it to the information input / output device 10.
Next, the drawing unit 13 provided in the information input / output device 10 draws and displays the drawing information input from the image information output unit 26 on the touch panel display unit 11.
This makes it possible to place function buttons with a large number of operations at coordinate positions with a small number of operations and function buttons with a small number of operations at coordinate positions with a large number of operations. can do. As a result, it is possible to extend the life of the touch panel without adding parts and without significantly reducing usability.
In addition, since the function buttons with a large number of operations are controlled to be preferentially assigned, the function assignments with a high number of operations can be preferentially distributed, and the life of the touch panel display can be extended. Can do.
In addition, the function buttons displayed on at least one level of the operation screen displayed on the touch panel display are counted as targets. Thereby, the coordinate area | region on the touch panel operated in the said hierarchy can be disperse | distributed, and a touch panel display can be extended in lifetime.

Second Embodiment
FIG. 4 is a diagram for explaining a block configuration of the operation display device 51 applicable to the touch panel display control device according to the second embodiment of the present invention.
The basic configuration will be described with reference to the block diagram of the operation display device 51 shown in FIG.
The operation display device 51 includes the information input / output device 10 and a control device 52.
The second embodiment is characterized in that, in addition to the basic configuration of the first embodiment, the button allocation unit 25 provided in the control device 52 includes a display area moving unit 53 and a control unit 54.
Based on the coordinate information input from the coordinate information input unit 21, the display area moving unit 53 detects that the operation coordinates move from right to left or from left to right within a predetermined time. Thereby, the flick operation on the touch panel display 11 is detected, and the reading position on the VRAM of the display area where a part of the function button screen is displayed is moved according to the flick operation.
When the display area is moved in accordance with the flick operation detected by the display area moving section 53, the control section 54 performs control so that the display position of the function button with the large number of operations is positioned in the coordinate area with the small number of operations. .
When the display area is moved in response to the flick operation, the control unit 54 performs control so that the display position of the function button with the small number of operations is positioned in the coordinate area with the large number of operations.

Next, an operation of the operation display device 51 applicable to the touch panel display control device according to the second embodiment of the present invention will be described with reference to FIGS.
As shown in FIG. 5, when the coordinate operation number counter unit 23 and the button operation number counter unit 24 are 0, the control unit 54 determines which reference line at the upper left of the display screen is displayed when the touch panel receives a flick operation. The button assignment unit 25 determines at which display position the entire display screen is positioned (stopped) depending on whether the area stops in the area.
In FIG. 5, when the reference line stops in the area [2], the screen stops moving at the position where “color copy” is entered in the coordinate area Aa, “FAX” is entered in the coordinate area Ab, and “monochrome copy” is entered in the coordinate area Ba. .
If the reference line stops in the area [3], the movement of the screen stops at a position where “monochrome copy” in the coordinate area Aa, “print” in the coordinate area Ab, and “color scan” in the coordinate area Ba enter.

When the number of operations in the coordinate operation number counter unit 23 and the button operation counter unit 24 are the results shown in Tables 2 and 3, the movement operation of the coordinate area with respect to the reference line is the same as shown in FIG. It is. More specifically, the control unit 54 reduces the area [2], which is the area where the most monochrome copy of the coordinate operation number counter unit 23 overlaps with the most monochrome copy of the button operation number counter unit 23, to reduce the coordinate area Ba. Control so that “monochrome copy” does not match easily.
In addition, the region [3] is wider than the region [2] and narrower than the regions [1] and [4] so that the “monochrome copy” is not easily matched with the coordinate region Aa having the second largest number of coordinate button operations. Set.
Thereby, the coordinates to be pressed are dispersed, and the life of the touch panel can be extended. Further, since the layout of the entire function button is not changed, the user-friendliness can be maintained.
Also, in this description, it is supposed to change the arrangement so that function buttons with a small number of operations are arranged in a coordinate area with a large number of operations, but function buttons with a large number of operations are arranged in a coordinate area with a small number of operations. However, the same effect can be obtained.

A method of determining the screen stop position will be described with reference to the explanatory diagram shown in FIG. FIG. 7 is a diagram for explaining an example of a method for determining the screen stop position.
For example, when the coordinate area Aa has the largest number of operations compared to other coordinate areas, the number of operation of the function buttons for the function 1 and the function 2 shown in FIG. If the ratio of the number of operations is, for example, twice or more, the left end of the region [2] is set at the position L5.
Conversely, when the number of operations of function 1 is, for example, twice or more as the ratio of the number of operations of function 2, the left end of region [2] is set at position L1.
When the ratio of the number of operations of function 2 is 1.5 to 2 times the number of operations of function 3, the right end of area [2] is set at position L7, and conversely, the number of operations of function 3 is When the ratio of the number of operations is 1.5 times to 2 times, for example, the right end of the region [2] is set at the position L9.

As described above, when a flick operation on the touch panel display is detected and a display area where a part of the function button screen is displayed is moved according to the flick operation, a function with a large number of operations is performed in a coordinate area with a small number of operations. Control to position the button display position. Thereby, the coordinate area | region on the touch panel operated can be disperse | distributed and a touch panel display can be extended in lifetime.
Further, when the display area is moved in response to the flick operation, control is performed so that the display position of the function button with the small number of operations is positioned in the coordinate area with the large number of operations. Accordingly, even when the display area is moved according to the flick operation, the coordinate area on the touch panel to be operated can be dispersed, and the life of the touch panel display can be extended.
Further, by determining the widths of the adjacent regions, the operated coordinates can be dispersed.
In addition, since the function buttons with a large number of operations are controlled to be preferentially assigned, the function assignments with a high number of operations can be preferentially distributed, and the life of the touch panel display can be extended. Can do.

<Third Embodiment>
Next, the operation of the operation display device 61 applicable to the control device for the touch panel display according to the third embodiment of the present invention will be described with reference to FIG.
The third embodiment is characterized in that, in addition to the basic configuration of the first embodiment, the button assignment unit 25 provided in the control device 52 includes a user specifying unit 62 and a control unit 63.
The user specifying unit 62 displays a plurality of user selection buttons for designating different users on the touch panel display, detects that any one of the plurality of user selection buttons is operated, and the user is operating. It is determined that
The button operation number counting unit 24 detects that the function button displayed on the touch panel display is operated, counts the number of operations of the specific coordinate area, and stores it for each user.
The control unit 63 controls the button assignment unit 25 so that the number of operations of each coordinate area is distributed for each user.

  Table 5 shows that, in the present embodiment, the button operation frequency counter unit 24 divides the operation frequency storage column for each user.

As shown in Table 5, the button operation number counter 24 counts the number of operations on the function buttons for each user.
Note that images of a plurality of user selection buttons for designating different users are output from the image information output unit 26 to the drawing unit 13. Thereby, a plurality of user selection buttons are displayed on the touch panel, and when the user operates the specific user selection button, it can be determined that the specific user is operating.
In this example, the function of the image forming apparatus is shown. However, in recent years, terminals such as image forming apparatuses and PCs are often shared and used in a certain group. In this case, it is common to set up an account for each user so that security, security, usage, and design can be customized.
The user specifying unit 62 displays a plurality of user selection buttons for designating different users on the touch panel display, detects that any one of the plurality of user selection buttons is operated, and the user is operating. It is determined that

User 1 uses mainly for copying, user 2 uses mainly scanner and storage operations, and user 3 uses mainly FAX, so that the functions used depending on the user's role are different.
In this case, which function button is used for each user is counted, and the common coordinate operation number counter unit 23 is compared with the button operation number counter unit 24 of the user who operates after logging in. As a result, the arrangement of the function buttons can be changed, and coordinate areas that can be operated more efficiently can be dispersed.
In this way, it is detected that the function button displayed on the touch panel display is operated, the number of operations of the specific coordinate area is counted and stored for each user, and the number of operations for each coordinate area is determined for each user. The button allocation unit is controlled to be distributed. Thereby, the operation frequency of each coordinate area | region can be disperse | distributed for every user.
In addition, since the function buttons with a large number of operations are controlled to be preferentially assigned, the function assignments with a high number of operations can be preferentially distributed, and the life of the touch panel display can be extended. Can do.

<Fourth embodiment>
Next, the operation of the operation display device 71 applicable to the control device for the touch panel display according to the fourth embodiment of the present invention will be described with reference to FIG.
The fourth embodiment is characterized in that, in addition to the basic configuration of the first embodiment, the button allocation unit 25 provided in the control device 52 includes a control unit 72.
The control unit 72 detects a selection operation to the function button displayed on the pop-up menu on the touch panel display, and controls to execute the operation mode assigned to the function button according to the operation.
When the pop-up menu is displayed, the control unit 72 performs control so that function buttons with a large number of operations are arranged in a coordinate area with a small number of operations.

When the function button shown in FIG. 10A is operated, a function selection screen is further displayed in a pop-up, and the function selection screen is assigned with a function with a large number of operation buttons by assigning a function with a large number of operation buttons. Is decentralized.
Since the function buttons are displayed in a pop-up, it is easy to visually check the function buttons to be used, and even if the function button layout is changed every time as shown in FIGS. The user can operate without significantly reducing the height.
For example, when the number of operations of each coordinate area shown in FIG. 10A increases in the order of Ca <Ba <Cb <Bb, when the number of operation of the function button is “A3 copy” <“A4 copy”, As shown in FIG. 10B, the “A4 copy” that is most likely to be operated is arranged in the coordinate area Ca with the least number of operations, and “A3 copy” that is considered to be most likely to be pressed next. Is arranged in the coordinate area Ba, the copy selection button is arranged in Cb, and only the number of copies is displayed in the coordinate area Bb which is the coordinate having the largest number of operations.

When the number of operations in each coordinate area shown in FIG. 10B increases in the order of Cb <Bb <Ca <Ba, when the number of operation of the function button is “A3 copy” <“A4 copy”, As shown in FIG. 10B, the “A4 copy” that is most likely to be operated is arranged in the coordinate area Cb that has the smallest number of operations, and the “A3 copy” that is considered to be most likely to be pressed next. Is arranged in the coordinate area Bb, the copy number selection button is arranged in Ca, and only the number of copies is displayed in the coordinate area Ba which is the coordinate having the largest number of operations.
Further, when the number of operations of each coordinate area shown in FIG. 10C increases in the order of Ba <Ca <Bb <Cb, when the number of operation of the function button is “A3 copy” <“A4 copy”, As shown in FIG. 10C, the “A4 copy” that is most likely to be operated is placed in the coordinate area Ba with the least number of operations, and the “A3 copy” that is considered to be most likely to be pressed next. Is arranged in the coordinate area Ca, the copy selection button is arranged in Bb, and only the number of copies is displayed in the coordinate area Cb which is the coordinate having the largest number of operations.
In this description, the color copy button is described, but other function buttons may be similarly controlled. In this embodiment, the present invention is applied to a multi-function machine including a printer and a facsimile. However, the present invention is not limited to this, and may be applied to, for example, an image forming apparatus, a personal computer PC, and a tablet terminal.

Further, in FIG. 10C, it is assumed that the number of copies selection button is operated few times. However, in a large multifunction peripheral (MFP) in which many copies are always copied, You may enable it to set as a function button with the highest possibility of being pressed.
In addition, a function that is most likely to be used may be set at the start of device use. These settings can be made by setting the function button operation counter unit to a value of 0 or more at the time of initial setting.
As a result, the coordinate operation positions can be dispersed from the start of use of the device, and the touch panel can be extended in life.
In the above control examples, since the usability is different for each person, it is desirable to have a function capable of individually turning on / off the control when it is felt that the usability is significantly deteriorated. It is even better if switching is performed for each user count. By providing such a mode, it is possible to extend the life of the touch panel within a range that does not deteriorate usability.
Without changing the position of the function buttons as a whole on the touch panel, both the “number of pressed coordinates” and the “number of pressed function buttons” are counted, respectively. The operation coordinates can be decentralized by placing function buttons with a large number of times pressed and function buttons with a small number of times pressed in coordinate positions with a large number of times pressed. The life of the touch panel can be extended without dropping.

As described above, when the pop-up menu is displayed, control is performed so that function buttons having a large number of operations are arranged in a coordinate region having a small number of operations. Thereby, even when a pop-up menu is displayed, the coordinate area on the touch panel to be operated can be dispersed, and the life of the touch panel display can be extended.
In addition, by controlling so that function buttons with a small number of operations are arranged in a coordinate area with a large number of operations, function buttons with a small number of operations can be arranged in a coordinate area with a large number of operations. The number of times can be distributed.
Furthermore, by counting the function buttons displayed on at least one level of the operation screen displayed on the touch panel display, the coordinate area on the touch panel operated in the level can be dispersed, and the touch panel display Can extend the service life.
In addition, since the function buttons with a large number of operations are controlled to be preferentially assigned, the function assignments with a high number of operations can be preferentially distributed, and the life of the touch panel display can be extended. Can do.
In addition, when a flick operation on the touch panel display provided in the image forming apparatus is detected and a display area where a part of the function button screen is displayed is moved according to the flick operation, the coordinate area with a small number of operations is displayed. Since control is performed so that the display positions of function buttons that are frequently operated are positioned, the coordinate area on the touch panel to be operated can be dispersed, and the life of the touch panel display can be extended.

<Examples of Embodiments and Effects of the Present Invention>
<First aspect>
The control device 1 of the touch panel display according to this aspect includes a plurality of function buttons displayed on the touch panel display 11, a plurality of coordinate areas corresponding to each function button on a one-to-one basis, and detected when the function buttons are operated, A touch panel display control device comprising: a button operation counter 24 for detecting that a function button has been operated and counting the number of operations of the function button; and detecting that a coordinate area has been operated. The coordinate operation number counter 23 that counts the number of operations in the coordinate area is compared with the number of operations for each function button and the number of operations for each coordinate area, and as a result of the comparison, the number of operations for each coordinate area and each function button A button assignment unit 25 for changing the assignment of each function button to each coordinate area when the ratio of the number of operations exceeds a reference multiple value; Characterized by comprising.
According to this aspect, the number of operations for each function button is compared with the number of operations for each coordinate area, and as a result of the comparison, the ratio between the number of operations for each coordinate area and the number of operations for each function button exceeds the reference multiple value. In this case, by changing the assignment of each function button to each coordinate area, the coordinate area on the touch panel to be operated can be dispersed, and the life of the touch panel display can be extended.

<Second aspect>
The control device 51 of the touch panel display of this aspect detects a flick operation on the touch panel display, and a display area moving unit 53 that moves a display area in which a part of the function button screen is displayed according to the flick operation, and a flick. And a control unit that controls to position the display position of the function button having the large number of operations in the coordinate area having the small number of operations when the display region is moved according to the operation.
According to this aspect, when a flick operation on the touch panel display is detected and a display area where a part of the function button screen is displayed is moved according to the flick operation, the number of operations is reduced to the coordinate area where the number of operations is small. Since control is performed so that the display positions of many function buttons are positioned, the coordinate area on the touch panel to be operated can be dispersed, and the life of the touch panel display can be extended.

<Third aspect>
In the control device 51 of the touch panel display according to this aspect, when the display unit moves in response to the flick operation, the control unit 54 positions the display position of the function button with the small number of operations in the coordinate region with the large number of operations. It is characterized by controlling.
According to this aspect, when the display area is moved according to the flick operation, the display is performed according to the flick operation because the function button display position is controlled so that the display position of the function button with the low operation count is positioned in the coordinate area with the high operation count. Even when the area is moved, the coordinate area on the touch panel to be operated can be dispersed, and the life of the touch panel display can be extended.

<4th aspect>
The touch panel display control device 71 according to this aspect detects a selection operation to the function button displayed in the pop-up menu on the touch panel display, and controls to execute the operation mode assigned to the function button according to the operation. The control unit 72 includes a control unit 72. When the pop-up menu is displayed, the control unit 72 performs control so that function buttons having a large number of operations are arranged in a coordinate region having a small number of operations.
According to this aspect, when a pop-up menu is displayed, control is performed so that function buttons with a large number of operations are arranged in a coordinate area with a small number of operations. The coordinate area can be dispersed, and the life of the touch panel display can be extended.

<5th aspect>
In the control device 71 of the touch panel display of this aspect, the control unit 72 performs control so as to arrange a function button with a small number of operations in a coordinate region with a large number of operations.
According to this aspect, by controlling to arrange a function button with a small number of operations in a coordinate area with a large number of operations, a function button with a small number of operations can be arranged in a coordinate area with a large number of operations. The number of operations of the coordinate area can be distributed.
<Sixth aspect>
The touch panel display control device 61 of this aspect displays a plurality of user selection buttons for designating different users on the touch panel display and detects that any one of the plurality of user selection buttons has been operated, The user specifying unit 62 that determines that the user is operating is provided, and the button operation frequency counter unit 24 detects that the function button displayed on the touch panel display is operated, and operates the specific coordinate area. The number of times is counted and stored for each user, and the control unit 63 controls the button allocation unit so that the number of operations of each coordinate area is distributed for each user.
According to this aspect, it is detected that the function button displayed on the touch panel display is operated, the number of operations of the specific coordinate area is counted and stored for each user, and the operation of each coordinate area is performed for each user. By controlling the button assignment unit so that the number of times is distributed, the number of operations of each coordinate area can be distributed for each user.

<Seventh aspect>
In the control device for a touch panel display according to this aspect, the button operation frequency counting unit counts the function buttons displayed on at least one layer of the operation screen displayed on the touch panel display.
According to this aspect, by counting the function buttons displayed on at least one level of the operation screen displayed on the touch panel display, the coordinate area on the touch panel operated in the level can be dispersed. It is possible to extend the life of the touch panel display.
<Eighth aspect>
In the control device for a touch panel display according to this aspect, the control unit performs control so that the function buttons having a large number of operations are preferentially assigned.
According to this aspect, control is performed so that the function buttons with a large number of operations are preferentially assigned in advance, so that the function assignment with a high number of operations can be preferentially distributed and the touch panel display can be extended. Life can be extended.
<Ninth aspect>
The image forming apparatus according to this aspect includes any one of the control devices 1, 51, 61, and 71 for the touch panel display.
According to this aspect, when the flick operation on the touch panel display provided in the image forming apparatus is detected and the display area in which a part of the function button screen is displayed is moved according to the flick operation, Since control is performed so that the display positions of the function buttons having a large number of operations are positioned in a small coordinate area, the coordinate areas on the touch panel to be operated can be dispersed, and the life of the touch panel display can be extended.

  DESCRIPTION OF SYMBOLS 1 ... Operation display apparatus, 10 ... Information input / output device, 11 ... Touch panel display part, 12 ... Coordinate information output part, 13 ... Drawing part, 20 ... Control apparatus, 21 ... Coordinate information input part, 23 ... Coordinate operation frequency counter part , 24 ... Button operation frequency counter section, 25 ... Button allocation section, 26 ... Image information output section, 27 ... Display area moving section, 28 ... Control section, 11 ... Touch panel display

JP 2007-072536 A JP 2000-076013 A JP-A-5-73202

Claims (9)

A control device for a touch panel display, comprising: a plurality of function buttons displayed on the touch panel display; and a plurality of coordinate areas corresponding to the function buttons on a one-to-one basis and detected when the function buttons are operated. There,
A function button operation number counting means for detecting that the function button has been operated and counting the number of operation of the function button;
Coordinate operation number counting means for detecting that the coordinate area is operated and counting the number of operations of the coordinate area;
When the number of operations for each function button and the number of operations for each coordinate area are compared, and as a result of the comparison, the ratio of the number of operations for each coordinate area and the number of operations for each function button exceeds a reference multiple And a button assigning unit for changing the assignment of each function button to each coordinate area. Display area moving means for detecting a flick operation on the touch panel display and moving a display area in which a part of the function button screen is displayed according to the flick operation;
Control means for controlling the display position of the function button having a large number of operations in the coordinate area having a small number of operations when the display area is moved in response to the flick operation. The touch panel display control device according to claim 1.   The control means, when moving the display area in response to the flick operation, controls to position a function button display position with a small number of operations in a coordinate area with a large number of operations. Item 3. The touch panel display control device according to Item 2. Control means for detecting a selection operation to the function button displayed in the pop-up menu on the touch panel display and controlling to execute an operation mode assigned to the function button according to the operation,
2. The touch panel display control according to claim 1, wherein when the pop-up menu is displayed, the control unit performs control so that function buttons having a large number of operations are arranged in a coordinate region having a small number of operations. apparatus.   5. The touch panel display control device according to claim 4, wherein the control unit performs control so that a function button having a small number of operations is arranged in a coordinate region having a large number of operations. A plurality of user selection buttons for designating different users are displayed on the touch panel display, and it is determined that any one of the plurality of user selection buttons is operated, and the user is determined to be operating. With user identification means,
The function button operation count counting unit detects that the function button displayed on the touch panel display is operated, counts the number of operations of the specific coordinate area, and stores it for each user.
6. The touch panel display control device according to claim 2, wherein the control unit controls the button allocation unit so that the number of operations of each coordinate area is distributed for each user. .   The function button operation frequency counting means counts function buttons displayed on at least one level of an operation screen displayed on the touch panel display as a target. The touch panel display control device described.   8. The touch panel display control device according to claim 2, wherein the control unit performs control so that the function buttons having a large number of operations are preferentially assigned in advance.   An image forming apparatus comprising the touch panel display control device according to claim 1.

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