JP4177046B2 - Composite pushbutton switch and computer program for its input control - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides a push button suitable for various electric devices, particularly a push button switch provided in a portable information terminal such as a mobile phone or a PDA, or a push button switch provided in a controller or a remote controller of an electric device such as a car navigation system or a car audio system. The present invention relates to a switch and its input control technology.
[0002]
BACKGROUND OF THE INVENTION
Speaking of the pushbutton switches provided in the electrical equipment as described above, it is binary to turn on / off the functions that can be executed by the equipment, or to adjust the operation amount of various functions executed by the equipment. It is usual to perform a simple switching. A specific example of the cellular phone will be described. A cellular phone is usually provided with a push button switch called a “direction key”. For example, each of the up / down / left / right direction areas on the pressing operation surface of the direction key is pressed. Thus, the screen is scrolled in each of the upper, lower, left and right directions, and items appearing on the screen are selected.
[0003]
However, in recent mobile phones, higher functionality corresponding to the development of applications is progressing, such as browsing game pages, map software, and Web pages by Internet connection. However, it can be said that a user interface suitable for such high functionality has been realized still depends on a pushbutton switch such as the above-described conventional direction key. There are also many applications that have become bottlenecks and are not offered to the market. And the situation that the user interface suitable for such high functionality has not been developed has the same tendency not only for the mobile phone but also for the various electric devices as described above.
[0004]
The present invention has been made against the background of the above-described conventional circumstances, and an object of the present invention is to provide a pushbutton switch that can provide various operability in accordance with high functionality in various electric devices.
[0005]
[Means for Solving the Problems]
In order to achieve this object, the present invention provides a first input unit that generates an analog input signal corresponding to the pressed amount of the pressed pressing member below the pressing member, and the pressing member includes the pressing member. A second input unit that generates an on / off-type input signal when pressed beyond an amount; The pressing operation member is a key sheet, the first input unit is an analog switch that generates an analog input signal that changes continuously or discontinuously, and the second input unit receives either an on / off input signal. Is an on / off switch to generate A composite pushbutton switch is provided.
[0006]
According to this composite pushbutton switch, the first input unit generates an analog input signal in accordance with the pressed amount of the pressed operation member, and the second input unit presses the pressed operation member beyond the pressed amount. Then, since an input signal in an on / off form is generated, an analog form input operation, for example, an operation of scrolling the screen at a variable speed, can be performed by the first input unit. Further, when an input in an on / off form is necessary, for example, when an operation for selecting a specific item from a plurality of selection items appearing on the screen is performed, the operation can be performed by the second input unit. . For this reason, various operativity according to the high functionalization of an electric equipment can be obtained by selectively using the 1st input part and the 2nd input part.
[0007]
And such a 1st input part and a 2nd input part are provided in the downward direction of the press operation member which is a single operation key like one resin key top, for example. That is, it is not necessary to separately provide a push button switch corresponding to the first input unit and a push button switch corresponding to the second input unit in the electric device. Therefore, as an advantage of the operator, for example, since two types of input operations can be performed by the first input unit and the second input unit by an operation on one resin key top, a complicated operation of using different push button switches is unnecessary and convenient. In addition, as an advantage of an electric device provided with this, since a separate push button switch is not required, the operation unit provided with the push button switch in the electric device can be reduced in size. This is preferable as a push button switch of an electric device such as a terminal.
[0008]
The “analog input signal” generated by the first input unit of such a composite pushbutton switch means that the signal generated by the input operation continuously changes, for example, when a contact point is formed by pressure-sensitive ink. It does not mean only analog input signals. For example, when an input operation is performed to electrically connect a pair of comb-shaped contacts that are electrically insulated from each other through the contacts, the signal generated according to the increase or decrease of the contact area changes discontinuously. However, it is intended to include such analog input signals. In other words, it does not include signals that only take a selective signal form such as on / off.
[0009]
By the way, a switch called a push button switch includes, for example, a unidirectional switch in which input is performed by a pressing operation that sinks the pressing operation member in one direction, and a pressing that sinks (tilts) the pressing operation member in a plurality of directions. There are also multidirectional switches that are input by operation. And as a multi-directional switch, what is called a “seesaw key”, which can be pressed in two directions, and further, as in the conventional example described above, the vertical and horizontal directions of the pressing operation surface of the pressing operation member Some of them can be operated by pressing each direction area.
[0010]
The composite pushbutton switch of the present invention can be applied to both such a unidirectional switch and a multidirectional switch. However, as an example of application to the multidirectional switch, the present invention has a configuration in which the pressing operation member has a pressing operation surface in a plane direction. The present invention provides a composite pushbutton switch having a plurality of divided directional areas and provided with a first input section and a second input section below each directional area. And according to this, two types of input operation by the 1st input part mentioned above and the 2nd input part can be performed for every direction area | region.
[0011]
As a specific structure of the composite pushbutton switch, The analog switch is an analog switch whose contact area with respect to the fixed contact of the circuit board varies depending on the pressing amount of the pressing operation member, an analog switch in which the contact is formed with pressure-sensitive ink, or the contact with the conductive ink. An on / off switch that is an analog switch formed and that is electrically connected to each other when the on / off switch exceeds the pressing amount and the pressing operation member is pressed. Can be configured as Therefore, even if two types of input operations by the first input unit and the second input unit are possible, this can be realized with a simple structure.
[0012]
The composite pushbutton switch of the present invention further includes an input control unit that applies each input signal generated by the first input unit and the second input unit to an execution process of the application to be operated, and the input control unit further includes the input control unit. Based on the selection request from the application, either the first input unit or the second input unit can be configured to be applied to the execution process.
[0013]
Since the input control means applies the input signal of either the first input unit or the second input unit to the execution process based on the selection request from the application, depending on the application or the task during execution of the application The composite push button switch can be used properly according to the required input form, and the operability is excellent because the operator does not need to switch the input form.
[0014]
The composite pushbutton switch according to the present invention further includes input control means for applying each input signal generated by the first input section and the second input section to execution processing of the application to be operated. When the input signal from the second input unit is detected while the input signal of the input unit is applied to the execution process, the input value of the input signal of the first input unit at the time of detection is detected by the first input unit. It is set as the maximum value of an analog input signal that can be input.
[0015]
For this reason, since the operator knows the pressure limit that can be operated by analog at the first input unit, and the excessive pressing operation is suppressed, the composite pushbutton switch due to the excessive pressing operation can be protected from destruction or failure. .
[0016]
Furthermore, the composite pushbutton switch of the present invention further comprises input control means for applying each input signal generated by the first input section and the second input section to execution processing of the application to be operated. When the generation time lag of the input signal of the second input unit relative to the input signal of the one input unit reaches a predetermined threshold value, the input signal of the second input unit can be applied to the execution process.
[0017]
When the generation time lag of the input signal of the second input unit with respect to the input signal of the first input unit reaches a predetermined threshold, the input control means applies the input signal of the second input unit to the execution process. When browsing a web page, it is very convenient when scroll control of a specific web page and page feed control to another web page are performed, and excellent operability can be obtained.
[0018]
As another means for achieving the above object, the present invention is provided below the pressing operation member in accordance with the pressing amount of the pressed pressing operation member. Changes continuously or discontinuously First input unit for generating an analog input signal As an analog switch And when the pressing operation member is pressed beyond the pressing amount Either on or off Second input unit for generating an input signal in an on / off form ON / OFF switch as A composite pushbutton switch that is electrically connected to a composite pushbutton switch comprising: an input control device that applies an input signal generated by an operation of the composite pushbutton switch to an execution process of an application to be operated A computer program for input control, wherein the input control device functions so as to apply an input signal of either the first input unit or the second input unit to the execution process in response to a selection request from the application A computer program is provided. According to this, the above-mentioned composite pushbutton switch is used. With Similarly, the composite push button switch can be used properly, and the operator does not need to switch the input form, and the operability is excellent.
[0019]
According to another aspect of the present invention, the pressing operation member is pressed below the pressing operation member according to the pressing amount of the pressing operation member. Changes continuously or discontinuously First input unit for generating an analog input signal As an analog switch And when the pressing operation member is pressed beyond the pressing amount Either on or off Second input unit for generating an input signal in an on / off form ON / OFF switch as A composite pushbutton switch that is electrically connected to a composite pushbutton switch comprising: an input control device that applies an input signal generated by an operation of the composite pushbutton switch to an execution process of an application to be operated When the input signal from the second input unit is detected while the input signal of the first input unit is applied to the execution process, the first input unit at the time of detection is detected. There is provided a computer program that causes the input control device to function so as to set the input value of the input signal as the maximum value of an analog input signal that can be input by a first input unit. According to this, the above-mentioned composite pushbutton switch is used. With Similarly, excessive pressing operation can be suppressed, and the composite pushbutton switch can be protected from destruction or failure.
[0020]
According to another aspect of the present invention, the pressing operation member is pressed below the pressing operation member according to the pressing amount of the pressing operation member. Changes continuously or discontinuously First input unit for generating an analog input signal As an analog switch And when the pressing operation member is pressed beyond the pressing amount Either on or off Second input unit for generating an input signal in an on / off form ON / OFF switch as A composite pushbutton switch that is electrically connected to a composite pushbutton switch comprising: an input control device that applies an input signal generated by an operation of the composite pushbutton switch to an execution process of an application to be operated When the generation time lag of the input signal of the second input unit with respect to the input signal of the first input unit reaches a predetermined threshold, the input signal from the second input unit is used for the execution process. A computer program for causing the input control device to function is provided. According to this, the above-mentioned composite pushbutton switch is used. With Similarly, continuous input operation can be smoothly switched from the first input unit to the second input unit, and excellent operability can be obtained.
[0021]
Further, in the above computer program, the composite pushbutton switch can be configured as the composite pushbutton switch of the present invention, and according to this, the operational effects of the composite pushbutton switch of the present invention described above can be obtained.
[0022]
The computer programs according to the present invention described above may be configured to be executed by combining at least one of them.
[0023]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings. In this embodiment, an application example to a mobile phone, which is an example of a portable information terminal, will be described as an electric device suitable for including the composite pushbutton switch of the present invention.
[0024]
Description of configuration [FIGS. 1 to 5] As shown in FIG. 1, the mobile phone 1 includes an LCD 2 and an operation unit 3, and a case 3 a of the operation unit 3 includes a keypad 4. The keypad 4 can be made of a plurality of resin key tops 5 for inputting characters, numbers, symbols, etc. and inputting various functions, and a rubber-like elastic body such as a thermoplastic elastomer or silicone rubber to which the key tops 4 are fixed. A flexible key sheet 6 is provided, and when the resin key top 5 is pressed, the contact of the printed circuit board 7 provided below the keypad 4 becomes conductive (see FIG. 3) so that an input operation can be performed. . Reference numeral 8 denotes a composite push button switch of this embodiment.
[0025]
The composite pushbutton switch 8 has a structure shown in FIGS. 2 to 5, and a resin key top 9 made of a synthetic resin such as polypropylene is fixed to the surface 6 a of the key sheet 6 with an adhesive or the like. A columnar support protrusion 6 c is formed at a substantially central position on the back surface 6 b of the key sheet 6 below the resin key top 9, and an annular support protrusion 6 d is also formed outside the position below the resin key top 9. Is formed. Of these, the cylindrical support protrusion 6c functions as a swing fulcrum for pressing the resin key top 9 in the vertical and horizontal directions. Between the support protrusions 6c and 6d, hemispherical pushers 6e are formed to bulge downward at each of the upper, lower, left and right positions around the columnar support protrusion 6c, and each pusher 6e. On the further outer side, a truncated pyramid shaped pusher 6f is formed to bulge downward.
[0026]
The composite pushbutton switch forming portion of the key sheet 6 has the above-described structure, but a contact sheet 10 formed of a film material such as polyethylene terephthalate is provided below the portion. The contact sheet 10 is provided with a circular insertion hole 10a having an opening diameter that allows only the truncated pyramid-shaped pusher 6f to pass when the resin key top 9 is pressed. In addition, a circular contact 10b printed with conductive ink is formed on the back surface of the contact sheet 10 below each hemispherical pusher 6e.
[0027]
Below the contact sheet 10 is a spacer 11 formed of a double-sided tape made of polyethylene terephthalate or the like. The front surface 11a is adhered to the contact sheet 10 and the back surface 11b is a printed circuit board 12. It is sticking against. The spacer 11 is provided with four oval openings 11c so that the Belleville spring contact portion 13 and the contact electrode portion 14 provided on the printed circuit board 12 are exposed, and other portions are formed. It will be dressed and covered.
[0028]
The printed circuit board 12 is provided with four disc spring contact portions 13 and four contact electrode portions 14. Each disc spring contact portion 13 has a metal disc spring 13a and a contact point 13b. When the metal disc spring 13a buckles and contacts the contact point 13b by the pressing force of the pusher portion 6f described above, it is turned on / off. An input signal of the form is generated.
[0029]
Each contact electrode portion 14 has comb-like electrodes 14a and 14b that are electrically insulated from each other as shown in FIG. Then, when the above-described pusher portion 6e is pressed against the contact sheet 10, the comb-like electrodes 14a and 14b are electrically connected to each other via the contact 10b of the contact sheet 10, and an input is made. As the contact area of the contact point 10b with respect to the electrodes 14a and 14b increases, the resistance value decreases and an analog input signal is generated. It should be noted that the analog input signal and its input value in this embodiment appear as voltage values that change.
[0030]
In addition, such an analog input signal is generated when a pressing operation is performed in each of the upper, lower, left, and right direction regions on the upper surface 9a of the resin key top 9 of the composite pushbutton switch 8. The composite pushbutton switch 8 is also generated when a pressing operation is performed between adjacent direction areas, that is, the upper right, lower right, upper left, and lower left. Then, as described above, each contact electrode portion 14 and the contact 10b generates an analog input signal corresponding to the size of the contact area, so that, for example, an intermediate position between the upper direction and the left direction on the upper surface 9a of the resin key top 9 When the pressing operation is performed, the input value of the input signal generated by the contact electrode part 14 and the contact 10b in the upward direction, the input value of the input signal generated by the contact electrode part 14 and the contact 10b in the left direction, Are the same value, and in this case, it becomes an input signal in the upper left direction. Further, for example, when a pressing operation is performed at a position slightly above the intermediate position, the input signal is slightly above the upper left direction. In this way, the composite pushbutton switch 8 of this embodiment can generate an analog input signal in all directions.
[0031]
As described above, when an on / off input signal is generated at the disc spring contact portion 13 and an analog input signal is generated at the contact electrode portion 14, these are supplied to a substrate circuit (not shown) and various Processing will be performed, but this point will be described later.
[0032]
In the composite pushbutton switch 8 of the present embodiment as described above, the key sheet 6 having the resin key top 9 and the pushers 6e and 6f corresponds to the “pressing operation member”. Further, the contact 10 b and the contact electrode portion 14 of the contact sheet 10 are configured as an analog switch 15 corresponding to the “first input portion”. The disc spring contact portion 13 of the printed circuit board 12 is configured as an on / off switch 16 corresponding to the “second input portion”. Then, on the upper surface 9a of the resin key top 9 that forms the “pressing operation surface” of the “pressing operation member”, a triangular symbol display portion 9b that indicates each of the upper, lower, left, and right directions appears. The off switch 16 is provided below each direction area corresponding to each triangular symbol.
[0033]
In the above-described “first input unit” and “second input unit”, the “second input unit” is input after the “first input unit” is input. That is, as shown in FIG. 5, when each direction area of the resin key top 9, for example, the left direction, is pressed, the contact 10b of the contact sheet 10 is first brought into contact with the contact electrode portion 14 facing by the pressing of the pusher 6e. Conduct. The displacement amount (pressing amount) of the pusher 6e until the contact 10b is completely brought into contact with the contact electrode portion 14 is d1. However, even if the pusher 6f is displaced by that amount, the disc spring contact portion 13 is still not in contact with the disc spring contact portion 13, and the disc spring contact portion 13 becomes conductive only when the displacement amount (pressing amount) becomes d2. In this way, the analog switch 15 and the on / off switch 16 are structured so as to give a time lag to the generation of the input signal, so that one composite pushbutton switch 8 can generate and use two types of input signals. Yes.
[0034]
Description of functional configuration [Fig. 6] Next, the functional configuration of the mobile phone 1 according to this embodiment including the composite pushbutton switch 8 having the above configuration will be described. FIG. 6 is a functional block diagram of the mobile phone 1, and the overall operation is controlled by a control unit 20 as “input control means” and “input control device” having a CPU 20 a and a ROM 20 b. That is, in the control unit 20, the CPU 20 a reads the control program stored in the ROM 20 b and executes predetermined arithmetic processing to control the operation of the entire mobile phone 1.
[0035]
The switch control unit 21 connected to the control unit 20 converts the input signal from the push button switch corresponding to the composite push button switch 8 and each resin key top 5 into a signal that can be controlled by arithmetic processing in the control unit 20 and performs control. To the unit 20. The display control unit 22 converts display data based on an application executed by the control unit 20 into a displayable signal and outputs the signal to the LCD 2. The timer 23 counts the generation time lag of the input signal in the analog switch 15 and the on / off switch 16. The RAM 24 stores computer programs such as applications executed on the mobile phone 1. The radio unit 25 modulates and demodulates signals transmitted and received by the antenna 26. The antenna 26 transmits and receives signals wirelessly with a base station (not shown). Data downloaded by accessing the Internet is also taken into the mobile phone 1 through the antenna 26 and the radio unit 25. Further, the microphone 27 inputs a transmission sound, the receiver 28 generates a reception sound, and the speaker 29 outputs various sound effects such as a ringing sound and an alarm sound.
[0036]
Explanation of control example (FIGS. 7 to 11) Next, input control of the composite pushbutton switch 8 will be described.
[0037]
Control example 1 (FIG. 7) First, when the operation mode of the application to be operated by the composite pushbutton switch 8 is either an analog operation using the analog switch 15 or an on / off operation using the on / off switch 16 Only the input signal generated by one of the switches 15 and 16 is validated by the control unit 20.
[0038]
That is, the CPU 20a of the control unit 20 detects, from the application, either a control signal for enabling an analog operation or a control signal for enabling an on / off operation, for reading and executing an application stored in the ROM 20b. (S1).
[0039]
When a control signal indicating an on / off operation is detected (s3), only the input signal generated by the on / off switch 16 is validated by an application execution process performed by the control unit 20. Thus, the control unit 20 waits for detection of the input signal (s5). When the input signal is detected through the switch control unit 21, the CPU 20a applies it to the application execution process (s7). As an example of the operation in this case, for example, there are a plurality of selection items on the screen displayed on the LCD 2, and the resin key top 9 of the composite pushbutton switch 8 is pressed in each of the upper, lower, left, and right direction areas. This is a case where an operation for selecting an item (menu selection operation) is performed.
[0040]
On the other hand, when a control signal indicating an analog operation is detected from the application and an analog operation is detected (s9), only the input signal generated by the analog switch 15 is the application executed by the control unit 20. It will be validated by the execution process, and the control unit 20 waits for detection of the input signal (s11). When the input signal is detected through the switch control unit 21, the CPU 20a applies it to the application execution process (s13). As an example of the operation in this case, for example, when the resin key top 9 of the composite push button switch 8 is pressed and the screen displayed on the LCD 2 is scrolled, if the composite push button switch 8 has a small pressing amount, the operation speed is low. This is a case where variable-speed scroll control of the screen is performed such that the screen is scrolled and the screen is scrolled at a high speed if the pressing amount is large.
[0041]
As described above, in the control example 1 in which the control unit 20 executes the input control computer program of this embodiment shown in FIG. 7, the activation control of two forms of input signals generated by the composite pushbutton switch 8 is performed. Thus, the analog switch 15 and the on / off switch 16 can be selectively used according to a selection request (control signal) from the application. As an operator, while operating a single pushbutton switch (composite pushbutton switch 8), it is possible to use analog operation and on / off operation without being aware of it, so it is very convenient and has excellent operability. ing.
[0042]
Control example 2 (FIG. 8) Operation example 2 shown in FIG. 8 is an application of operation example 1 as described above. That is, as shown in FIG. 5, the analog switch 15 and the on / off switch 16 have a structure in which a time lag occurs in the generation of the input signal. This operation example 2 further improves the operability of the analog operation performed by the analog switch 15 by utilizing this. In the operation example 2, only the analog operation process is different from the above-described operation example 1, and the on / off operation process is the same. Therefore, only the analog operation will be described here.
[0043]
Specifically, the presence or absence of a control signal for enabling the analog operation is determined from an application executed by the control unit 20 (s1). When the control signal is acquired and an analog operation is performed (s9), only the input signal generated by the analog switch 15 is first validated by the application execution process performed by the control unit 20. Thus, the control unit 20 waits for detection of the input signal (s11). When an input signal is detected through the switch control unit 21 in this step (s11), the control unit 20 detects the input signal generated by the on / off switch 16 while detecting the input signal of the analog switch 15. It becomes standby (s12). Here, when the input signal of the on / off switch 16 is detected through the switch control unit 21, the control unit 20 analogizes the input value of the input signal of the analog switch 15 when the input signal of the on / off switch 16 is detected. Set as the maximum value of input. In other words, the input to the on / off switch 16 means that the input value of the input signal generated by the analog switch 15 is the maximum value and is already saturated, so that the operation with a further increased pressing amount is performed. There is no point in performing the operation, and the composite push button switch 8 may be broken by an excessive pressing operation. Therefore, in the operation example 2 performed by the control unit 20 executing the input control computer program of the present embodiment shown in FIG. 8, the maximum value of the analog input is set in this way, so that further pressing operation can be applied. It is possible to let the operator know that analog operation is impossible. Then, the control unit 20 applies the input signal from the analog switch 15 to the application execution process while setting such a maximum value (s13).
[0044]
Control example 3 (FIGS. 9 to 11) FIG. 9 shows a composite pushbutton switch when the operation mode of the application to be operated by the composite pushbutton switch 8 is both an analog operation of the analog switch 15 and an on / off operation of the on / off switch 16. 8 is a control example. In this control example 3, there is an item selection screen on a web page outside the figure, and when a certain item is selected, the web page w1 shown in FIG. 10 is selected, and when the next item is selected, the web shown in the figure is shown. A case where the page w2 is displayed will be described as an example. In addition, none of the web pages w1 and w2 can be displayed on the LCD 2 at a time, and a scroll operation is required to display all of them.
[0045]
The operation of the composite pushbutton switch 8 performed by the operator in this control example 3 uses the analog switch 15 when scrolling the Web page w1 displayed on the LCD 2. Further, the on / off switch 16 is used to display the next Web page w2 on the LCD 2 without looking at the entire Web page w1. The computer program for executing the control example 3 stored in the ROM 20b of the control unit 20 is read out by the CPU 20a of the control unit 20 and subjected to predetermined arithmetic processing, and the following control is executed. become.
[0046]
First, the CPU 20a of the control unit 20 refers to the control table of the ROM 20b and determines whether either the analog switch 15 or the on / off switch 16 of the composite pushbutton switch 8 is enabled or not. A flag indicating whether or not it is not detected is detected (s21). In this example, when the web page w1 is displayed on the LCD 2, “flag = not input” is set. Therefore, the CPU 20a detects “flag = not input” (s23), and proceeds to the next step.
[0047]
Next, the CPU 20a waits for detection of an input signal generated by the analog switch 15 (s25). If there is no pressing operation on the analog switch 15 (s27), the CPU 20a keeps "flag = no input" (s29), terminates the processing as it is (end), or is again generated by the analog switch. Signal detection standby is performed (s21 → s23 → s25). In FIG. 10, “stop timer” and “timer = 0” are set in step s29, but these controls are not executed here.
[0048]
On the other hand, when the analog switch 15 is pressed and an input signal is detected, the CPU 20a activates the timer 23 to count the elapsed time (generation time lag) from the start of detection until the input signal of the on / off switch 16 is detected. (S31).
[0049]
Then, as shown in FIG. 11A, when 20 ms preset as a threshold value has passed without detecting the input signal of the on / off switch 16 (s33), from “flag = not input” “Flag = analog” is changed (s35). When “flag = analog” is detected in step s21 (s37), the CPU 20a validates the input signal of the analog switch 15 input through the switch control unit 21, and performs scroll control of the web page w1 to which the analog operation is applied. Execute (s39).
[0050]
After that, if the operation on the analog switch 15 is continued (s41), a series of steps (s21 → s37 → s39 → s41 → s21...) Is repeated and the scroll control is continued. Then, when the operation is stopped, such as when all the web pages w1 are scrolled and displayed, the timer is stopped in step s43, the count value is set to 0, and the flag of the control table is changed to “flag = not input”. Then, the process is ended as it is (end), or the processing from step 21 and step 23 is executed.
[0051]
On the other hand, in step 33 described above, before the count value of the timer 23 has passed 20 ms, the CPU 20a detects the generation of the input signal at the on / off switch 16 (s45). Then, as shown in FIG. 11B, when an input signal at the on / off switch 16 is detected before the elapse of 20 ms (s47), the flag of the control table is changed to “flag = on / off” (s49). ). When “flag = on / off” is detected in step s21 (s51), feed control from the web page w1 to the web page w2 to which the on / off operation by the input signal generated by the on / off switch 16 is applied is executed. (S53).
[0052]
Thereafter, when generation of an input signal at the on / off switch 16 is detected again (s55), the process proceeds to step s51 through step s21, and from the web page w2 to which the on / off operation is applied again at step s53. If the feed control to another Web page is repeatedly executed and the operation on the on / off switch 16 is continued thereafter (s55), a series of steps (s21 → s51 → s53 → s55 → s21...) Is repeated. The page feed control will continue to be executed. If the generation of the next input signal at the on / off switch 16 is not detected (s55), the CPU 20a stops the timer at step s57, sets the count value to 0, and sets the flag of the control table to “flag = not yet”. Change to “input” and end the process as it is (end), or execute the processing following step 21 and step 23.
[0053]
On the other hand, if the input signal of the on / off switch 16 cannot be detected before the elapse of 20 ms in step s47, the control table flag is changed to “flag = not input” (s59). Thereafter, the processing is ended as it is (end), or the processing from step 21 and step 23 is executed.
[0054]
As described above, in the control example 3 in which the control unit 20 executes the input control computer program of the present embodiment shown in FIG. 9, a predetermined progress that becomes a threshold after the CPU 20 a detects the input signal of the analog switch 15. The analog operation of the analog switch 15 and the on / off operation of the on / off switch 16 can be performed depending on whether or not the input signal of the on / off switch 16 can be detected within the time. Therefore, the scroll operation and the page feed operation can be used properly without a sense of incongruity, and the operability is improved, which is very convenient.
[0055]
Note that Control Example 1 to Control Example 3 described as an example depend on the operation mode required for each screen displayed on the LCD 2 even when the application to be operated by the composite pushbutton switch 8 is the same. Different control examples can be applied.
[0056]
Explanation of detailed change example In the above-described embodiment, the cellular phone 1 is illustrated as an application example of the composite pushbutton switch 8; however, the cellular phone 1 is provided in a portable communication terminal such as a PDA, a car navigation system, a car audio system, a controller or a remote controller of various electric devices, You may apply about a pushbutton switch.
[0057]
The analog switch 15 of the above embodiment can be input in all directions, but it may be possible to simply input in 8 directions.
[0058]
In the above-described embodiment, the example in which the contact electrode portion 14 is the comb-like electrodes 14a and 14b is shown as the analog switch 15. However, the present invention is not limited thereto, and other electrode shapes may be used. Further, instead of the contact electrode portion 14, for example, a contact using pressure-sensitive ink may be used. Further, the use of the contact sheet 10 provided with the contacts 10b may be abolished by forming the lower end surface shape of the pusher 6e as a flat surface and forming a contact point on the flat lower end surface with conductive ink.
[0059]
In the embodiment, both the key sheet 6 and the resin key top 9 fixed to the key sheet 6 form a “pressing operation member”. However, the resin key top 9 is omitted, and the key sheet 6 itself is a “pressing operation member”. The upper surface may be a “pressing operation surface”. Further, a so-called film key sheet in which a resin key top is injection-molded on the back surface of the resin film may be used as a “pressing operation member”, and the surface of the resin film may be used as a “pressing operation surface”.
[0060]
In the control example 3 of the embodiment, the control example of the composite pushbutton switch 8 for the Web pages w1 and w2 downloaded by connecting to the Internet has been described. However, the control example is not limited to this and is stored in the RAM 24 of the mobile phone 1. The composite push button switch 8 can also be used when operating other applications other than the WWW browser, such as game software and map software.
[0061]
About the control example 1-the control example 3 of the said embodiment, it is also possible to comprise the control example 1 or the control example 2 and the control example 3 in combination. A specific example will be described. In step s39 for executing the scroll control of the control example 3, a series of steps (s9 → s11 →) for changing the input value of the input signal of the analog switch 15 in the control example 2 to the maximum value. s12 → s13) may be executed. According to this, even when an analog operation is performed in the control example 3, it is possible to suppress an excessive pressing operation and to protect the composite pushbutton switch 8 from destruction or failure.
[0062]
As an example of determining that the input signal of the analog switch 15 cannot be detected in step s41 of the control example 3 of the embodiment, when the input signal of the analog switch 15 cannot be detected for a predetermined time, or the on / off switch 16 is set for a predetermined time. A case where a long press operation is performed may be detected. Further, as an example of determining that the input signal of the on / off switch 16 cannot be detected in step s55, when the input signal of the on / off switch 16 cannot be detected for a predetermined time or when the on / off switch 16 is pressed for a predetermined time. The case where it is operated may be detected.
[0063]
Description of other embodiments [FIGS. 12 to 14] In addition to the above embodiment, the composite pushbutton switch of the present invention can be implemented in the following embodiment. In addition, about the structure similar to the above-mentioned embodiment (The structure which added the design modification, such as a shape change), the same code | symbol is attached | subjected and duplication description is abbreviate | omitted.
[0064]
The composite pushbutton switch 30 shown in FIG. 12 cannot be input in all directions by pressing and tilting in multiple directions like the above-described composite pushbutton switch 8, but can be input only by pressing in the sinking direction. It is called a direction key and cannot be input. 13 is a so-called “seesaw key” that swings when pressed. Even with these composite pushbutton switches 30 and 31, it is possible to carry out the same control example 1 to control example 3 as the composite pushbutton switch 8, and it is possible to obtain the same operations and effects.
[0065]
The composite pushbutton switch 32 shown in FIG. 14 is obtained by changing the arrangement of the analog switch 15 in the composite pushbutton switch 8, and is the same except for this point. In the composite pushbutton switch 32 of this embodiment, the analog switch 32a (contact 10b) is in the upper left position, the analog switch 32b (contact 10b) is in the lower left position, and the analog switch 32c (contact 10b) is in the upper right position. The analog switches 32d (contacts 10b) are respectively arranged at positions in the lower right direction. Even in this arrangement, omnidirectional input is possible during analog operation. For example, if only the analog switch 32a is input, the input is in the upper left direction. However, if the input values of the adjacent analog switch 32b and the analog switch 32a are the same, the input is in the left direction. In addition, it is possible to input in the upward direction, the right direction, and the downward direction. In addition, when a position slightly upward from the position in the upper left direction of the analog switch 32a is pressed, the input becomes slightly upward from the upper left direction. In this way, omnidirectional input is achieved. Note that the analog switches 32a to 32d of the present embodiment may be used as on / off switches.
[0066]
【The invention's effect】
According to the present invention, the first input unit that generates an analog input signal corresponding to the pressing amount of the pressed pressing member and the pressing member is pressed below the pressing amount, below the pressing member. A second input unit that generates an input signal in an on / off form, so that both an analog form input operation and an on / off form input operation can be performed with a single operation key (composite pushbutton switch). It is possible to obtain a variety of operability suitable for increasing the functionality of various electric devices.
[0067]
Further, since it is not necessary to provide an analog-type input button pushbutton switch and an on / off-type input button pushbutton switch in the operation unit of the electric device, the size can be reduced.
[0068]
Furthermore, since the complicated operation of using different pushbutton switches for performing the two types of input operations is unnecessary, the operability can be improved.
[0069]
According to the present invention, the input control means for applying each input signal generated by the first input unit and the second input unit to the execution process of the operation target application is based on the selection request from the application. Since any one of the input signals from the second input unit is applied to the execution process, it is not necessary for the operator himself to switch between the two types of input operations.
[0070]
According to the present invention, the input control means for applying each input signal generated by the first input unit and the second input unit to the execution process of the operation target application applies the input signal of the first input unit to the execution process. When an input signal from the second input unit is detected while the input signal is input, the input value of the input signal of the first input unit at the time of detection is the maximum value of the analog input signal that can be input at the first input unit. Therefore, the operator knows the pressure limit that can be operated by analog operation at the first input unit, and the excessive pressing operation is suppressed. Therefore, the composite pushbutton switch due to the excessive pressing operation is protected from destruction or failure. be able to.
[0071]
According to the present invention, the input control unit that applies each input signal generated by the first input unit and the second input unit to the execution process of the application to be operated is provided on the second input unit with respect to the input signal of the first input unit. When the generation time lag of the input signal reaches a predetermined threshold, the input signal of the second input unit is applied to the execution process. Therefore, the form of the input operation differs depending on the operation target application or the process being executed. Even in this case, the analog-type input operation and the on / off-type input operation can be properly used with a single pushbutton switch (composite pushbutton switch), so that the operability can also be improved in this respect.
[Brief description of the drawings]
FIG. 1 is a schematic front view of a mobile phone to which a composite pushbutton switch according to an embodiment is applied.
FIG. 2 is an enlarged front view of a composite push button switch.
3 is a cross-sectional view taken along line SA-SA in FIG.
4 is a cross-sectional view taken along line SB-SB in FIG.
FIG. 5 is an enlarged cross-sectional view of the SC portion of FIG.
6 is a functional block diagram of the mobile phone in FIG. 1. FIG.
FIG. 7 is a flowchart showing a control example of an input operation of the composite pushbutton switch shown in FIG. 1;
FIG. 8 is a flowchart showing another control example of the input operation of the composite pushbutton switch shown in FIG. 1;
FIG. 9 is a flowchart showing still another control example of the input operation of the composite pushbutton switch shown in FIG. 1;
FIG. 10 is an explanatory diagram of a Web page that is an operation target of the composite pushbutton switch in the control example of FIG. 9;
11 is a timing chart showing a switching operation between an analog switch and an on / off switch of the composite pushbutton switch shown in FIG. 1. FIG.
FIGS. 12A and 12B are diagrams showing a composite pushbutton switch according to another embodiment, in which FIG. 12A is a plan view and FIG. 12B is a sectional view taken along the line SD-SD in FIG.
FIGS. 13A and 13B are diagrams showing a composite pushbutton switch according to another embodiment, in which FIG. 13A is a plan view thereof, and FIG. 13B is a sectional view taken along line SE-SE in FIG.
FIG. 14 is a plan view showing a composite pushbutton switch according to another embodiment.
[Explanation of symbols]
4 Keypad
5 Resin key top
6 Key sheet (pressing operation member)
7 Printed circuit board
8 Compound push button switch
9 Resin key top (pressing operation member)
9a Top surface (pressing operation surface)
10 Contact sheet
10b Contact (first input part)
13 Belleville spring contact part (second input part)
14 Contact electrode part (first input part)
15 Analog switch (first input)
16 ON / OFF switch (second input)
20 control unit (input control means, input control device)
30, 31, 32 Composite pushbutton switch

Claims (9)

A first input unit that generates an analog input signal corresponding to the pressing amount of the pressed pressing member below the pressing member, and an on / off mode when the pressing member exceeds the pressing amount. A second input unit that generates an input signal of
The pressing operation member is a key sheet,
The first input unit is an analog switch in which the contact area with respect to the fixed contact of the substrate circuit is changed by contact or separation according to the pressing amount of the pressing operation member, an analog switch in which the contact is formed with pressure-sensitive ink, or conductive ink An analog switch that generates an analog input signal that changes continuously or discontinuously selected from the analog switch formed with the contact ,
A composite pushbutton switch , wherein the second input unit is an on / off switch that generates an on / off input signal that is electrically connected to each other when the pressing operation member is pressed beyond the pressing amount . A first input unit that generates an analog input signal corresponding to the pressing amount of the pressed pressing member below the pressing member, and an on / off mode when the pressing member exceeds the pressing amount. with the second input unit for generating an input signal and an input control means for applying the input signal second input and the first input unit has generated the execution of the subject application,
The pressing operation member is a key sheet,
An analog switch that generates an analog input signal in which the first input section changes continuously or discontinuously;
The second input unit is an on / off switch that generates an input signal of either on / off,
Input control means further, upon detecting an input signal from the second input portion while applying an input signal of the first input unit in the execution process, the input signal of the first input unit when the detection the input values, double if the push-button switch that have been set as the maximum value of the input signal can be input analog form at the first input section. A first input unit that generates an analog input signal corresponding to the pressing amount of the pressed pressing member below the pressing member, and an on / off mode when the pressing member exceeds the pressing amount. with the second input unit for generating an input signal and an input control means for applying the input signal second input and the first input unit has generated the execution of the subject application,
The pressing operation member is a key sheet,
An analog switch that generates an analog input signal in which the first input section changes continuously or discontinuously;
The second input unit is an on / off switch that generates an input signal of either on / off,
Input control means further when generating time lag of the second input section of the input signal to the first input of the input signal reaches a predetermined threshold value, the input signal of the second input portion so as to apply to the execution process double if the push-button switch that has turned to. Is pressing member has a plurality of directions regions obtained by dividing the pressing operation surface in the surface direction, any claims 1 to 3 below each direction area is provided with the first input and the second input unit composite push-button switch of one of claims. Input control means for applying each input signal generated by the first input section and the second input section to execution processing of the application to be operated is further provided. The input control means further includes a first control based on a selection request from the application. 2. The composite pushbutton switch according to claim 1 , wherein an input signal of either the input unit or the second input unit is applied to the execution process. Below the pressing operation member, an analog switch whose contact area with the fixed contact of the substrate circuit is variable by contact and separation according to the pressing amount of the pressed pressing operation member, an analog switch in which the contact is formed with pressure-sensitive ink, or conductive An analog switch as a first input unit that generates an analog-type input signal that changes continuously or discontinuously selected from an analog switch in which a contact is formed with a conductive ink, and the pressing operation member is pressed beyond the pressing amount and on / off switch as a second input unit for generating an input signal of the on / off mode to be either on / off to conduct mutually Once are electrically connected to the composite pushbutton switch comprising, For an input control device that applies an input signal generated by operating the composite pushbutton switch to execution processing of an application to be operated A computer program for input control of the composite push button switch to row,
A computer program that causes the input control device to function so as to apply an input signal of either the first input unit or the second input unit to the execution process in response to a selection request from the application. An analog switch as a first input unit that generates an analog input signal that changes continuously or discontinuously according to the pressing amount of the pressed pressing operation member below the pressing operation member, and the pressing operation member includes the pressing amount. An on / off switch as a second input unit that generates an input signal in an on / off form that is either on / off when pressed beyond the range, and is electrically connected to a composite pushbutton switch, A computer program for input control of a composite pushbutton switch that causes an input control device that applies an input signal generated by operating the composite pushbutton switch to an execution process of an application to be operated,
When the input signal from the second input unit is detected while the input signal of the first input unit is applied to the execution process, the input value of the input signal of the first input unit at the time of detection is changed to the first input. A computer program that causes the input control device to function as a maximum value of an analog input signal that can be input by a unit. An analog switch as a first input unit that generates an analog input signal that changes continuously or discontinuously according to the pressing amount of the pressed pressing operation member below the pressing operation member, and the pressing operation member includes the pressing amount. An on / off switch as a second input unit that generates an input signal in an on / off form that is either on / off when pressed beyond the range, and is electrically connected to a composite pushbutton switch, A computer program for input control of a composite pushbutton switch that causes an input control device that applies an input signal generated by operating the composite pushbutton switch to an execution process of an application to be operated,
When the generation time lag of the input signal of the second input unit relative to the input signal of the first input unit reaches a predetermined threshold, the input control device is caused to function so that the input signal from the second input unit is applied to the execution process Computer program. Claim 6 claims 8 to any one of claims computer program complex push-button switch is combined push button switch of claim 1, wherein.

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