JP2012032890A - Input device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an input device that allows a user to easily copy and paste a plurality of texts, images, etc.SOLUTION: An input device having a copy/paste function includes: a display section; a storage section for storing multiple pieces of copied data; a load detecting section that detects an input pressing load; and a control section that associates the multiple pieces of copied data stored in the storage section with each of predetermined press patterns. When detecting a press pattern, on the basis of the pressing load detected by the load detecting section, to paste the copied data, the control section displays the copied data corresponding to the detected press pattern on the display section.

Description

  The present invention relates to an input device, and more particularly to an input device capable of copy and paste.

  Conventionally, for example, when copying and pasting a plurality of texts between applications such as a web browser and a mailer using a small mobile terminal equipped with a touch panel such as a mobile phone or a PDA (Personal Digital Assistant), It was necessary to repeat the copy and paste operation for each text.

  For example, when the portable terminal described in Patent Document 1 is used, the user copies the target text data on the copy target screen, temporarily stores it, switches the screen display to the paste target screen, I had to do a paste operation. That is, in order to paste the first text again after copying and pasting the first text and the second text in order, the user needs to perform a copy and paste operation on the first text again. It was.

  The copy and paste operation according to the above method will be described in detail below with reference to FIG. In the figure, it should be noted that the size ratio between the input device 100 and the user's finger may be different from the actual size.

  FIG. 15A shows a state in which a web page related to “eclipse” is displayed on the touch panel 200 using the web browser application in the input device 100. FIG. 15B shows a state in which the mailer is activated and a new mail creation screen is displayed on the touch panel 200 in the same input device 100. Copy the text data "total solar eclipse" in the web page and the URL data "http: //www.xxx.solar_eclipse ........." User operations are as follows.

  First, the user sets the display on the touch panel 200 of the input device 100 to the state shown in FIG. Then, the user selects (1) the text “total solar eclipse” from the web page and copies it. Next, the user switches the display on the touch panel 200 to the state shown in FIG. Then, the user pastes (2) the copied text “total solar eclipse” in an arbitrary place in the mail. Thereafter, the user returns the display on the touch panel 200 to the state shown in FIG. Further, the user (3) selects and copies the URL. Then, the user switches again to the state of FIG. Thereafter, the user pastes (4) URL in an arbitrary place in the mail.

  Thereafter, when pasting the text “total solar eclipse” selected in (1) again to an arbitrary place in the mail, the user switches the touch panel 200 to the state shown in FIG. The user then copies the text “total solar eclipse”. Then, the user switches the touch panel 200 to the state of FIG. 15B and pastes “total solar eclipse” at an arbitrary location (not shown).

JP 2009-88912 A

  As described above, when copying and pasting a plurality of texts and the like, if it becomes necessary to switch the display of the touch panel 200 between the web screen and the new mail creation screen and repeat the copy operation and the paste operation, it is convenient. In addition to lacking, it is conceivable that the probability of the user making a mistake in operation increases.

  Accordingly, an object of the present invention made in view of such points is to provide an input device that can easily copy and paste a plurality of texts, images, and the like in an input device having a copy and paste function.

The invention of the input device according to the first aspect to achieve the above object is as follows:
A display unit;
A storage unit for storing a plurality of copied data;
A load detection unit that detects a pressing load of an input by pressing;
A control unit that associates each of the plurality of copied data stored in the storage unit with a predetermined pressing pattern, and the control unit includes:
When detecting a pressing pattern based on the pressing load detected by the load detection unit and pasting the plurality of copied data, the copied data corresponding to the detected pressing pattern is displayed on the display unit. It is what.

The invention according to a second aspect is the input device according to the first aspect,
The controller is
Associating the plurality of copied data stored in the storage unit with a threshold value of a pressing load,
Based on the pressure load detected by the load detection unit, one threshold value of the associated pressure load threshold values is detected as the pressure pattern, and the detected threshold value is pasted when pasting the plurality of copied data. The copied data corresponding to is displayed on the display unit.

The invention according to a third aspect is the input device according to the first aspect,
The controller is
Associating the plurality of copied data stored in the storage unit with the number of times that the load detection unit detects a pressing load of a predetermined value or more within a predetermined time,
Based on the pressing load detected by the load detecting unit, the number of times the load detecting unit detects a pressing load equal to or greater than a predetermined value within a predetermined time is detected as the pressing pattern, and the plurality of copied data are pasted. The copied data corresponding to the detected number of times is displayed on the display unit.

  According to the input device of the present invention, since the control unit displays one of the plurality of copied data on the display unit based on the pressing pattern, it is possible to easily copy and paste a plurality of texts and images. It becomes possible.

It is a functional block diagram which shows roughly the structure of the input device which concerns on one embodiment of this invention. It is a figure which shows an example of the mounting structure of each function part which comprises the input device of FIG. 3 is a flowchart for explaining an example of copy processing by the input device of FIG. 1. It is a figure which shows the example of the threshold value allocation method of the pressing load value in the input device of FIG. It is a figure which shows an example of a structure of the memory | storage part in the input device of FIG. It is a figure which shows an example of copy operation in the input device of FIG. It is a graph showing an example of the change of the press load value detected by the load detection part of the input device of FIG. It is a flowchart explaining an example of the paste process by the input device of FIG. It is a figure which shows an example of paste operation in the input device of FIG. It is a graph showing an example of the change of the press load value detected by the load detection part of the input device of FIG. It is a figure which shows an example of paste operation in the input device of FIG. It is a graph showing an example of the change of the press load value detected by the load detection part of the input device of FIG. It is a figure which shows an example of paste operation in the input device of FIG. It is a graph showing an example of the change of the press load value detected by the load detection part of the input device of FIG. It is a figure explaining copy and paste operation in the conventional input device.

  Embodiments of the present invention will be described below with reference to the drawings. In each of the following embodiments, an example of an input device of the present invention will be described assuming a mobile terminal such as a mobile phone or a PDA that includes a touch panel. However, the input device of the present invention is not limited to these portable terminals, and may be various terminals including an input device such as a digital camera, a portable audio player, a notebook PC, and a mini-notebook PC. it can. The input device of the present invention is not limited to a portable terminal, and may be any terminal equipped with an input device such as a bank ATM or a station ticket vending machine. Also, it should be noted that the size ratio between the input device and the user's finger in the figure may be different from the actual one.

  FIG. 1 is a functional block diagram schematically showing the internal configuration of the input device 10 according to the present embodiment. As illustrated in FIG. 1, the input device 10 includes a control unit 20, a touch panel 30, a load detection unit 40, a vibration unit 50, and a storage unit 60.

  The control unit 20 controls and manages the entire input device 10 including each functional block of the input device 10. Moreover, the control part 20 detects a press pattern based on the press load which the load detection part 40 mentioned later detects. Here, the pressing pattern is, for example, a pressing load value or the number of pressing times.

  In the present embodiment, the touch panel 30 includes a display unit 32 and an input unit 34. The touch panel 30 is configured by arranging an input unit 34 that receives user input so as to be superimposed on the front surface of the display unit 32.

  The display unit 32 of the touch panel 30 is configured by, for example, a liquid crystal display (LCD) or an organic EL display. The display unit 32 performs display corresponding to each application and draws and displays a user interface including various keys and buttons for receiving user operation input to the input unit 34 in a predetermined display area. Hereinafter, in order to accept the user's operation input to the input unit 34 of the touch panel 30 as described above, images such as various keys and buttons displayed on the display unit 32 so that the user can visually recognize them are simply referred to as “objects”. I write. When the display unit 32 is used as a user interface of the touch panel 30, an operation-related object such as a key or a push button or a slide lever is displayed on the display unit 32.

  In addition, an input unit 34 constituted by a matrix switch or the like that accepts an input by a user's finger or the like is disposed on the front surface of the display unit 32. The input unit 34 detects (accepts) an input by contact (pressing) of a user's fingertip or the like, and outputs a signal corresponding to a position where the input by the contact (pressing) is detected. With such a configuration, the touch panel 30 can receive an operation input from the user and display various information such as an input result according to each application.

  The load detection unit 40 detects a pressing load on the touch panel 30 (or the input unit 34), and is configured using, for example, a strain gauge sensor. The load detection unit 40 detects an input pressing load caused by pressing when the user performs an operation input.

  The vibration unit 50 transmits vibration to the touch panel 30 (or the input unit 34), and is configured using, for example, a piezoelectric element or an ultrasonic transducer. When the vibration unit 50 vibrates, vibration can be transmitted to the user's finger or the like pressing the input unit 34. Due to this vibration, when the user's predetermined input is performed on the touch panel 30, the user can be notified that the predetermined input has been normally received. The tactile sensation presented to the user by the vibration of the vibration unit 50 is hereinafter referred to as “click feeling”.

  With the above-described configuration, if a stepwise threshold is set for the pressing load detected by the load detection unit 40, the input device 10 can accept a plurality of steps of input according to the pressing load of the operation input by the user. it can.

  2 is a diagram illustrating an example of a mounting structure of the touch panel 30, the load detection unit 40, and the vibration unit 50 of the input device 10 illustrated in FIG. FIG. 2 is a cross-sectional view of the main part of the input device 10.

  In FIG. 2, when the user presses the display of an object such as a button displayed on the display unit 32, the user presses the input unit 34 at a position corresponding to the display position of the object on the display unit 32 with a finger. It shows how it is. The control unit 20 detects a pressing position of the input by detecting the pressing of the input by the user's finger. Further, the load detection unit 40 detects the force with which the user presses the input unit 34. For this reason, the load detection part 40 is arrange | positioned so that the input part 34 may be supported so that the press load concerning the input part 34 may be transmitted. The vibration unit 50 applies vibration to the user's finger at an appropriate timing based on the pressing load detected by the load detection unit 40. For this reason, the vibration part 50 is arrange | positioned so that the input part 34 may be contacted so that a vibration can be transmitted to the input part 34, for example. The vibration generated by the vibration unit 50 is controlled by the control unit 20 based on the pressing load detected by the load detection unit 40.

  Next, the flow of copy processing in the input apparatus 10 that accepts such user input operations will be described with reference to FIG. In the input device 10, the control unit 20 constantly monitors whether the load detection unit 40 has detected a pressing load, and detects a pressing pattern based on the pressing load detected by the load detection unit 40. Here, the control part 20 demonstrates as what detects the press load more than a predetermined threshold value as a press pattern. When the load detection unit 40 detects a pressing load equal to or greater than the threshold value P0, the control unit 20 vibrates the touch panel 30 via the vibration unit 50 (step S101). And the control part 20 memorize | stores the pressing load position which the input part 34 detected as a starting point of a copy range (step S102).

  Subsequently, the control unit 20 determines whether or not the position to which the pressing load equal to or higher than the threshold value P0 is changed (step S103). As a result, it is detected that the user is selecting the copy range by sliding his / her finger on the touch panel 30 while maintaining the pressing load equal to or higher than the threshold value P0. When the load detection unit 40 detects a pressing load equal to or greater than the threshold value P1 (step S104), the control unit 20 first detects a pressing load equal to or higher than the threshold value P0 to a position where a pressing load equal to or higher than the threshold value P1 is detected. Is determined as a copy range by the user (step S105).

  On the other hand, if a pressing load equal to or higher than the threshold value P1 is not detected in step S104, the control unit 20 determines whether or not the position where the pressing load equal to or higher than the threshold value P0 is changed (step S103). When the pressing load is equal to or less than the threshold P0 or the position where the pressing load is applied does not change, the control unit 20 ends the copy process without saving the copy data. On the contrary, when the position where the pressing load equal to or higher than the threshold value P0 changes, the control unit 20 determines whether or not the pressing load equal to or higher than the threshold value P1 is detected by the load detection unit 40 (step S104).

  In step S105, when the copy selection range by the user is confirmed, the control unit 20 displays operation menu items on the touch panel 30 (step S106). If the control unit 20 determines that the pressing load detected by the load detection unit 40 is zero (step S107), the control unit 20 deletes the menu item from the touch panel 30 (step S108). In addition, the control unit 20 indicates that the position where the input is detected when the pressing load detected by the load detecting unit 40 becomes zero (hereinafter referred to as “the point where the pressing load becomes zero”) is displayed on the menu item. It is determined whether or not (step S109).

  If the point where the pressing load becomes zero is on the menu item, the control unit 20 subsequently determines whether or not the point where the pressing load becomes zero is on the copy item (step S110). As a result, if it is determined that the point where the pressing load becomes zero is on the copy item, the control unit 20 stores the data within the copy range defined in step S103 in the storage unit 60 (step S111). Hereinafter, the data stored in the storage unit 60 in step S111 is referred to as copied data. In step S111, the control unit 20 associates the copied data stored in the storage unit 60 with different predetermined pressing patterns.

  On the other hand, in the copy process shown in FIG. 3, if the point where the pressing load is zero is on a menu item other than the copy item, the control unit 20 performs a process corresponding to each item (step S112) and ends. .

  For example, it is assumed that the storage unit 60 stores two copied data as a result of the control unit 20 repeating a series of copy processing (steps S101 to S111) twice. In this case, in step S111, the control unit 20 associates a threshold value Pi with one copied data and a threshold Pii larger than the threshold Pi with another copied data as a pressing pattern. In this way, a plurality of copied data are associated with different pressure load thresholds.

  With reference to FIG. 4, a threshold value assigning method in the case of associating a pressure load threshold value with copied data as a pressure pattern will be described. Now, let the range of the pressing load value that can be detected by the load detection unit 40 be a value between 0 and MAX in FIG. In order to prevent a malfunction that the input device 10 is activated even if the user touches the touch panel 30 slightly, the pressing load between the minimum value 0 and the threshold value Pr is not associated with the copied data as the threshold value. . In order not to apply an excessive load to the touch panel 30, a pressing load value within a certain range below the maximum value MAX is not assigned as a threshold value. These ranges are referred to as reserved ranges, and a range obtained by removing the reserved range from the entire range in which the load can be detected from 0 to MAX is referred to as an “assignable range”.

  FIG. 4B is a diagram for explaining a first example of the threshold value assignment method. In this method, the control unit 20 presets a set value Ps for the threshold interval. Then, the control unit 20 sets the pressure load obtained by adding the set value Ps to the threshold value Pr, which is a value from the minimum value 0 to the reserved range, as the threshold value Pi, and sets the pressure load value obtained by adding the set value Ps to the threshold value Pi as the threshold value. Set as Pii.

  FIG. 4C is a diagram for explaining a second example of the threshold value assigning method. In this method, a value obtained by dividing the size of the assignable range by the value obtained by adding 1 to the number of copied data is set as the threshold interval. That is, when there are two copied data, the threshold interval is a value obtained by dividing the pressing load value corresponding to the assignable range by 3 (2 (number of copied data) +1). Therefore, the value of the threshold value Pi is (size of assignable range / 3) × 1 + Pr. As described above, in the second example, by using a value obtained by adding 1 to the number of copied data to calculate the threshold interval, it is possible to give a certain amount of margin to the allocation in the allocatable range. it can.

  Although various storage units 60 can be used, FIG. 5 illustrates the case where a ring buffer is used. The ring buffer 61 has four areas Pi to Piv, and stores copied data in these areas in order. That is, in step S111 in the first copy process, the first text data (text 1) is stored in the area I of the ring buffer 61, and in step S111 in the second copy process, the second text data (text 2) is stored. ) Is stored in the area II (FIG. 5B).

  Then, the control unit 20 may associate the threshold values Pi and Pii of the pressing load as the pressing patterns for the copied data stored in the areas I and II of the ring buffer 61, respectively. At this time, the size of each threshold is, for example, Pi> Pii, and if the ring buffer 61 is set to store the copied data in order from the area I, the text data added in the past has a larger pressing load. Will respond. The number of areas in the ring buffer 61 can be set as appropriate.

  Next, an example of a user operation corresponding to the copy process according to FIG. 3 will be described with reference to FIG. In the following, it is assumed that the user recognizes that the input device 10 is an input device that accepts an input in accordance with the pressing load. In addition, it is assumed that the input device 10 is in a state where a web browser is activated and a web page is displayed on the display unit 32 of the touch panel 30. First, the user presses the touch panel 30 at the start point of the text range to be copied (“total solar eclipse”) (step S101). Then, as illustrated in FIG. 6A, the control unit 20 of the input device 10 vibrates the touch panel 30 by vibrating the vibration unit 50, and presents a click feeling to the user (step S102).

  When the user obtains a click feeling, the user slides his / her finger to the end point of the text range to be copied while maintaining a predetermined pressing load or more, and pushes the touch panel 30. Then, the control unit 20 of the input device 10 vibrates the touch panel 30 by vibrating the vibration unit 50, presents a click feeling to the user, and displays a menu on the touch panel 30 as shown in FIG. Items are displayed (steps S103 to S106). As shown in FIG. 6C, the user slides his / her finger to the “copy” item, releases the finger from the touch panel 30 on the “copy” item (step S107), and completes the selection operation. When the user removes his / her finger from touch panel 30, control unit 20 of input device 10 erases the display of the menu item from touch panel 30 (step S108). Then, the control part 20 performs each process from step S109 to 112.

  FIG. 7 is a diagram illustrating a change in the pressing load value when the control unit 20 performs the process illustrated in FIG. 3 in response to the user operation described with reference to FIGS. is there. The vertical axis represents the pressing load value (threshold value), and the horizontal axis represents the passage of time. First, the point in time when the pressing load value first reaches the threshold value P0 corresponds to the point in time when the control unit 20 performs the processes related to steps S101 to S102 by detecting the pressing of the touch panel 30 by the user. Next, the flat section of the pressure load value between the threshold value P0 and the threshold value P1 detects the copy range selection operation by the user (FIG. 6A), and the control unit 20 performs the process related to step S103. Corresponds to the time.

  The time point when the pressing load value reaches the threshold value P1 corresponds to the time point when the control unit 20 performs the processing according to steps S104 to S106 by detecting the pressing of the touch panel 30 at the end point of the copy range by the user. The subsequent flat section of the pressing load value at or above the threshold value P1 corresponds to the time point when the control unit 20 performs the process according to step S107 by detecting the menu selection operation by the user. The time point when the pressing load value becomes zero corresponds to the time point when the control unit 20 performs the processing according to steps S107 to S111 by detecting the menu selection operation by the user.

  Next, the flow of paste processing in the input device 10 will be described with reference to FIG. In the input device 10, the control unit 20 constantly monitors whether the load detection unit 40 has detected a pressing load, and detects a pressing pattern based on the pressing load detected by the load detection unit 40. Here, the description will be made assuming that the control unit 20 detects a pressing load equal to or higher than a threshold (for example, Pi and Pii) associated with the copied data by the control unit 20 in step S111 of the copy process as the pressing pattern.

  When the load detection unit 40 detects a pressing load equal to or higher than the threshold value P0 (not shown) and detects a pressing load equal to or higher than the threshold value P1, the control unit 20 vibrates the touch panel 30 via the vibration unit 50 (step S201). ). Further, the control unit 20 displays operation menu items on the touch panel 30 (step S202). And if the control part 20 judges that the press load detected by the load detection part 40 is zero (step S203), it will delete a menu item from the touch panel 30 (step S204). Further, the control unit 20 determines whether or not the point where the pressing load becomes zero is on the menu item (step S205).

  If the point where the pressing load is zero is on the menu item, the control unit 20 subsequently determines whether or not the point where the pressing load is zero is on the paste item (step S206). As a result, if it is determined that the point where the pressing load becomes zero is on the paste item, the control unit 20 monitors whether or not the load detecting unit 40 detects the pressing load within a predetermined time. And the control part 20 vibrates the touch panel 30 via the vibration part 50, when the load detection part 40 detects the load more than predetermined value (step S207). Further, the control unit 20 determines the magnitude relationship between the pressing load detected by the load detection unit 40 and the threshold values (Pi and Pii) associated with the copied data (step S208).

  Based on the determination result, the control unit 20 displays, on the touch panel 30, data associated with the threshold value corresponding to the pressing load detected by the load detection unit 40 among the copied data (step S209). Thereafter, the control unit 20 determines whether or not the pressing load on the touch panel 30 becomes zero within a predetermined time (step S210). At this time, if the pressing load is zero, the control unit 20 pastes the data being displayed (step S211), and ends the paste process.

  On the other hand, if it is determined in step S208 that the pressing load detected by the load detection unit 40 is lower than the threshold value associated with the copied data, the control unit 20 detects a further pressing load within a predetermined time. Monitor whether or not. Similarly, when it is determined in step S210 that the pressing load does not become zero within the predetermined time, the control unit 20 monitors whether or not a further pressing load is detected within the predetermined time (step S207). . If it is determined in step S206 that the point where the pressing load is zero is not on the paste item, the control unit 20 performs a corresponding process (step S212).

  An example of a user operation corresponding to the paste processing according to FIG. 8 will be described with reference to FIG. Here, it is assumed that the storage unit 60 stores “total solar eclipse” and “http: //www.xxx.solar_eclipse...” As copied data. Now, it is assumed that “total solar eclipse” is associated with the threshold value Pi and “http: //www.xxx.solar_eclipse...” Is associated with the threshold value Pii.

  First, the user pushes in the touch panel 30 until a click feeling is obtained twice (step S201). Then, the input device 10 displays the menu item on the touch panel 30 as shown in FIG. 9A (step S202). As shown in FIG. 9B, the user slides the displayed menu item with a finger, releases the finger from the touch panel 30 on the pasted item, and completes the selection operation (step S203). When the user lifts his / her finger from the touch panel 30, the input device 10 deletes the display of the menu item from the display unit 32 (Steps S204 to S206).

  When the user presses the position on the touch panel 30 where the paste is desired with a force equal to or greater than the threshold Pi, the input device 10 presents a click feeling as shown in FIG. 9C (step S207). Further, “total solar eclipse” that is text data associated with the threshold value Pi is displayed (steps S208 to S209). Then, as shown in FIG. 9D, when the user removes his / her finger from the touch panel 30 (step S210), the control unit 20 pastes “total solar eclipse” (step S211).

  FIG. 10 is a diagram illustrating a change in the pressing load value when the control unit 20 performs the process illustrated in FIG. 8 in response to the user operation described with reference to FIGS. is there. The vertical axis represents the pressing load value (threshold value), and the horizontal axis represents the passage of time. First, the point in time when the pressing load value first reaches the threshold value P1 corresponds to the point in time when the control unit 20 performs the processing related to steps S201 to S202 in FIG. 8 by detecting the pressing of the touch panel 30 by the user. Next, the point in time when the pressing load value becomes zero corresponds to the point in time when the control unit 20 performs the processing according to steps S203 to S206 by detecting the selection operation of the menu item by the user.

  Thereafter, the point in time when the pressing load value becomes equal to or greater than the threshold Pi corresponds to the point in time when the control unit 20 performs the processes according to steps S207 to S209 by detecting the pressing of the touch panel 30 at the paste position by the user. The time point when the pressing load value becomes zero corresponds to the time point when the control unit 20 performs the processing according to steps S210 to S211.

  Next, in FIG. 9C, a process performed by the control unit 20 when the touch panel 30 is pushed in by the user and a pressing load equal to or higher than the threshold value Pii is detected will be described. In this case, the control unit 20 vibrates the touch panel 30 via the vibration unit 50 when a pressing load value equal to or greater than the threshold value Pi is detected in step S207 of FIG. In step S <b> 208, the control unit 20 determines the magnitude relationship between the pressing load detected by the load detection unit 40 and the threshold values (Pi and Pii) associated with the data stored in the storage unit 60.

  As a result, if the pressing load is equal to or greater than the threshold value Pi, the control unit 20 displays “total solar eclipse” that is data corresponding to the threshold value Pi on the touch panel 30 in step S209. Thereafter, when the load does not become zero within the predetermined time in step S210, the control unit 20 monitors whether or not a further load is detected within the predetermined time (step S207).

  In step S207, when the pressing load value reaches the threshold value Pii, the control unit 20 causes the touch panel 30 to vibrate again via the vibration unit 50. In step S <b> 208, the control unit 20 determines the magnitude relationship between the pressing load detected by the load detection unit 40 and the threshold values (Pi and Pii) associated with the data stored in the storage unit 60. As a result, if the pressing load is equal to or greater than the threshold value Pii, the control unit 20 determines in step S209 that “http: //www.xxx.solar_eclipse .........” is data corresponding to the threshold value Pii. Is displayed on the touch panel 30. The display on the touch panel 30 at this time is shown in FIG. When the user lifts his / her finger from the touch panel 30 and determines that the pressing load is zero in step S210, the control unit 20 determines in step S211 the data “http: //www.xxx.solar_eclipse” being displayed. ... ”Is pasted, and the process is terminated (FIG. 11B).

  FIG. 12 is a diagram showing a change in the pressing load value in this case. The vertical axis represents the pressing load value (threshold value), and the horizontal axis represents the passage of time. First, the time point when the pressing load value first reaches the threshold value P1 corresponds to the time point when the control unit 20 performs the processing related to steps S201 to S202 illustrated in FIG. Next, the point in time when the pressing load value becomes zero corresponds to the point in time when the control unit 20 performs the processing related to steps S203 to S206 by detecting the selection operation of the menu item by the user.

  Thereafter, the point in time when the pressing load value becomes equal to or greater than the threshold Pi corresponds to the point in time when the control unit 20 performs the processes related to Steps S207 to S209 by detecting the pressing of the touch panel 30 at the paste position by the user. At this time, “total solar eclipse” that is data associated with the threshold value Pi is displayed on the touch panel 30.

  The section in which the pressing load value increases from the threshold value Pi to the threshold value Pii is a point in time when the control unit 20 performs a loopback process from step S210 to step S207 by detecting continuous pressing of the touch panel 30 by the user. Corresponding to And the time when a press load value becomes more than threshold Pii corresponds to the time when control part 20 performs processing concerning Steps S208-S209. At this time, “http: //www.xxx.solar_eclipse...” That is data corresponding to the threshold value Pii is displayed on the touch panel 30. The time point when the pressing load value becomes zero corresponds to the time point when the control unit 20 performs the processing according to steps S210 to S211.

  After pasting the data “http: //www.xxx.solar_eclipse .........” associated with the threshold Pii, the “total solar eclipse” that is the data associated with the threshold Pi is pasted again. In that case, the control unit 20 repeats the processes related to steps S201 to S211.

  According to the copy and paste method in the input device 10 according to the present embodiment, even when it is necessary to copy and paste the same data multiple times, the display on the touch panel 30 is switched and copied as before. Since it is not necessary to repeat the and paste operation, the probability of erroneous operation by the user can be reduced. Similarly, when copying and pasting a plurality of data, since the plurality of copied data are stored as pressing patterns in association with respective unique threshold values, an operation for selecting data to be pasted in the pasting operation is performed. Simple and convenient.

  In the pasting method described with reference to FIGS. 8 to 10, the data “total solar eclipse” and “http: //www.xxx.solar_eclipse .........” stored in the storage unit 60 are used. Have been described on the premise that they are respectively associated with the threshold value Pi and the threshold value Pii. However, the storage unit 60 can also associate a plurality of copied data as pressing patterns with the number of times that the load detection unit 40 detects a pressing load greater than or equal to a predetermined value within a predetermined time, instead of a unique threshold value.

  In this case, in step S110 in the copy process shown in FIG. 3, the control unit 20 associates the copied data with the number of times that the load detection unit 40 detects a pressing load greater than or equal to a predetermined value within a predetermined time as a pressing pattern. In step S208 in the paste process shown in FIG. 8, the control unit 20 compares the number of times that the load detection unit 40 has detected a pressing load equal to or greater than a predetermined value within a predetermined time with the number of times associated with the copied data. Then, the corresponding copied data is displayed on the touch panel 30 (step S209).

  In this case, after the user performs the operations of FIGS. 9A to 9B and selects the paste item, the position on the touch panel 30 where the paste is to be performed is equal to or greater than a predetermined pressing load value. Push once with force. Then, as illustrated in FIG. 13A, the control unit 20 presents a click feeling once and displays, for example, “total solar eclipse” on the touch panel 30 as the first paste candidate. Then, once the user releases the pushing force without releasing the finger from the touch panel 30, the control unit 20 erases the display of “total solar eclipse” from the touch panel 30 (FIG. 13B).

  When the user presses the touch panel 30 again with a force equal to or greater than a predetermined pressing load value within a predetermined time (second time), the control unit 20 presents a click feeling once to the user, and the second “Http: //www.xxx.solar_eclipse...” Is displayed on the touch panel 30 as a paste candidate (FIG. 13C). Then, when the user removes his / her finger from touch panel 30, control unit 20 pastes “http: //www.xxx.solar_eclipse...” (FIG. 13D).

  FIG. 14 is a diagram illustrating a change in the pressing load value in this case. The vertical axis represents the pressing load value (threshold value), and the horizontal axis represents the passage of time. The time point when the pressing load value first reaches the threshold value P1 corresponds to the time point when the control unit 20 performs the processing according to steps S201 to S202 shown in FIG. Next, the point in time when the pressing load value becomes zero corresponds to the point in time when the control unit 20 performs the processing related to steps S203 to S206 by detecting the selection operation of the menu item by the user.

  Thereafter, at time point A when the pressure load value is equal to or greater than the threshold value Pi, the control unit 20 presents a click feeling to the user once and displays “total solar eclipse” on the touch panel 30 as the first paste candidate. (FIG. 13A). Then, after detecting that the pressing of the touch panel 30 by the user has been loosened, and again detecting a pressing load equal to or higher than the threshold value Pi (time B), the control unit 20 presents a click feeling again to the user, “Http: //www.xxx.solar_eclipse...” Is displayed on the touch panel 30 as the paste candidate 2 (FIG. 13C). The time point when the pressing load value becomes zero corresponds to the time point when the control unit 20 performs the paste process.

  Thus, the control as described with reference to FIG. 4 is performed by setting the pressing pattern detected by the control unit 20 to the number of times that the load detecting unit 40 detects a pressing load of a predetermined value or more within a predetermined time. The assignment of the threshold value by the unit 20 becomes unnecessary, and the copy and paste process in the input device 10 becomes simpler.

  In addition, this invention is not limited only to the said embodiment, Many deformation | transformation or a change is possible.

  In the above embodiment, the copy and paste process has been described. However, the present invention is not limited to this, and it goes without saying that the present invention can also be applied to a cut (cut) and paste process. In this case, by applying “cut data” to “copied data” in the above embodiment, the present invention can be applied to cut and paste processing. Here, as a method of cutting the text, the drawing, and the like to make “cut data”, in the above-described embodiment, the copy process can be appropriately replaced with the cut process.

  Further, in the above-described embodiment, a plurality of copied data are associated with different pressing load thresholds or the number of times of detection, respectively. However, in the present invention, for example, when a plurality of copied data is copied. The latest copied data is associated with a threshold of a small pressing load or a small number of detections, and the copied data that has been copied in the past is copied from the time when the copied data is copied. You may associate the threshold value of a larger pressing load, or the number of detections with many numbers.

DESCRIPTION OF SYMBOLS 10 Input device 20 Control part 30 Touch panel 32 Display part 34 Input part 40 Load detection part 50 Vibration part 60 Memory | storage part

Claims (3)

A display unit;
A storage unit for storing a plurality of copied data;
A load detection unit that detects a pressing load of an input by pressing;
A control unit that associates each of the plurality of copied data stored in the storage unit with a predetermined pressing pattern, and the control unit includes:
When detecting a pressing pattern based on the pressing load detected by the load detection unit and pasting the plurality of copied data, the copied data corresponding to the detected pressing pattern is displayed on the display unit. An input device. The controller is
Associating the plurality of copied data stored in the storage unit with a threshold value of a pressing load,
Based on the pressure load detected by the load detection unit, one threshold value of the associated pressure load threshold values is detected as the pressure pattern, and the detected threshold value is pasted when pasting the plurality of copied data. The input device according to claim 1, wherein the copied data corresponding to is displayed on the display unit. The controller is
Associating the plurality of copied data stored in the storage unit with the number of times that the load detection unit detects a pressing load of a predetermined value or more within a predetermined time,
Based on the pressing load detected by the load detecting unit, the number of times the load detecting unit detects a pressing load equal to or greater than a predetermined value within a predetermined time is detected as the pressing pattern, and the plurality of copied data are pasted. 2. The input device according to claim 1, wherein copied data corresponding to the detected number of times is displayed on the display unit.

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