JP3443740B2 - GAME EXECUTION COMPUTER SYSTEM AND CONTROL SWITCH DEVICE USED FOR THE SAME - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a computer system for executing a game and a control switch device used for the computer system. More specifically, the present invention relates to a control switch device such as a push button switch provided on the control panel of the game machine for controlling the operation of the game character displayed on the screen of the display device.

[0002]

2. Description of the Related Art A conventional game machine control switch device outputs a switch on / off signal, and a computer system is configured to control the operation of a game character displayed on a screen in response to the on / off switch signal. Has been done. As another type of switch device, for example, there is a mouse device including a pressure sensor described in Japanese Patent Laid-Open No. 63-29113.

[0003]

In the conventional game machine,
Although the operation of the character displayed on the screen is controlled by operating the buttons provided on the control panel, it is not necessary to control the operation of the character based on the on / off signal output by pressing the button. However, there is a problem that the operation mode is limited. Further, the configuration of the mouse device also has a problem that the operation mode and the given information are limited as means for controlling the motion of the game character.

In order to solve such problems, an object of the present invention is to provide a computer system capable of expressing various operation modes of a game character and a control switch device used for the computer system.

[0005]

Was to achieve the above object, there is provided a means for solving]
For this reason, the switch device of the present invention has
A game character that controls the motion of the game character according to the size of
Switch device that outputs the pressing operation time
The movable part made of a conductive member and the movable part.
Facing each other, and a fixed part having a predetermined electric resistance value.
Including, the movable portion and the fixed portion by the pressing operation of the player
Configured so that the combined electrical resistance value with
And the combined electric
The composite electric resistance value from the time when the resistance value starts falling.
Measures the pressing operation time up to the point when is near the minimum value
And measuring means.

Preferably, the movable part is in contact with the fixed part.
It further comprises a detection means for detecting whether or not the user has touched.

The computer system of the present invention is a player
The movement of the game character corresponding to the size of the pressing operation time
In response to the game console that controls the work and the manual operation of the player
A switch device for outputting the pressing operation time to the game machine
And a computer system comprising
The switch device includes a movable part made of a conductive member and the movable part.
Fixed so as to face the moving part and have a predetermined electrical resistance value
The movable part and the movable part by a pressing operation of the player.
As the combined electric resistance value with the fixed part increases and decreases in an analog manner
And the switch section configured by
From the time when the electrical resistance value begins to fall,
Measure the pressing operation time until the resistance value approaches the minimum value.
And measuring means for measuring.

The switch device of the present invention comprises a conductive member.
And a movable part which is arranged facing the movable part.
Includes a fixed part that has a resistance to air
More compatible with increase or decrease in contact area between the movable part and the fixed part
So that the combined electric resistance value of both increases and decreases in an analog manner.
And the switch section configured by
From the time when the electrical resistance value begins to fall,
Measure the pressing operation time until the resistance value approaches the minimum value.
The measuring means for measuring and the movable part come into contact with the fixed part.
And a detection means for detecting whether or not it is.

[0009]

[0010]

[0011]

[0012]

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION (First Embodiment of the Invention) FIG.
It is a block diagram which shows the information processing apparatus to which the Example of the switch device of this invention was connected. The switch device 1 shown in FIG.
It is configured to be able to output an electric signal according to the operation amount and operation time of the switch. The switch device 1 is electrically connected to the information processing device 7 and outputs an electric signal according to the operation amount and the operation time of the switch.
Can be supplied to.

The switch device 1 includes a switch 3 which outputs an electric signal according to an operation amount when the switch device 1 is operated.
It comprises signal output means 5 for obtaining a signal relating to an operation time from an electric signal corresponding to the operation amount from the switch 3.

Here, the switch 3 includes a cover 13,
It has a mechanical system including a button 14, a movable contact 15, a fixed contact 16 and a resistor 17, and an electrical system including a resistance measuring device 21 and an A / D converter 22.

The mechanical system of the switch 3 is constructed as follows. The cover 13 is a device frame that constitutes the main body of the switch 3. A button 14 is fixed to the cover 13 so as to be vertically movable in the drawing. The button 14 has an operating end at the upper end in the drawing, a movable contact 15 fixed to the lower end, and is constantly urged upward in the drawing by a coil spring or the like (not shown). The movable contact 15 is made of a hemispherical conductive rubber G. The conductive rubber G has a constant resistance value.
At the position facing the movable contact 15, the semi-circular conductor 1
8 and 18 are arranged with a gap 19 therebetween, and the semicircular conductors 18 and 18 are arranged so as to have a disc shape as a whole. A resistor 17 is connected in parallel to the semicircular conductors 18, 18, one end of the resistor 17 is grounded, and the other end of the resistor 17 is connected to one end of an input terminal of a resistance measuring instrument 21 of the signal output means 12. Has been done.

The electrical system of the switch 3 is constructed as follows. The resistance measuring device 21 connects the other end of the resistor 17 to one end of its input terminal and grounds the other end of the input terminal, and detects the change in resistance value between the semicircular conductors 18 and the speed. You can do it. The resistance measuring device 2
The output terminal of 1 is connected to the A / D converter 22. A
The / D converter 22 is adapted to convert the resistance value from the resistance measuring device 21 and the amount of change in the resistance value per unit time into a digital signal.

Further, the output terminal of the resistance measuring device 21 is connected to the input terminal of the signal output means 5 so that an analog electric signal corresponding to the operation amount of the button 14 is inputted from the resistance measuring device 21. It has become. Signal output means 5
Is designed to be a digital signal related to the operation time based on the analog electric signal corresponding to the operation amount, and this can be output from the output terminal. The output terminal of the signal output means 5 is connected to the interface 72 of the information processing device 7 so that a digital signal regarding the operation time can be supplied to the CPU 71 via the interface 72.

Further, the A / D converter 22 of the switch 3 is
A digital signal is output as a parallel signal. The parallel output terminal of this A / D converter 22 is
The interface 72 of the information processing device 7 is connected to the parallel input / output terminal.

In this embodiment, the information processing device 7 is
Although only the CPU 71 and the interface 72 are displayed, a ROM, a RAM, an I / O device, a display device, an external storage device, and other various elements necessary for processing are provided.

FIG. 2 is a block diagram showing a concrete circuit configuration example of the signal output means 5. In FIG. 2, the signal output means 5 comprises an operation time detection circuit 51, which is constructed as follows. The operation time detection circuit 51 includes the comparator 5
2, maximum value detection circuit 53, flip-flop circuit 54,
And a timer 55. The output terminal of the resistance measuring device 21 is connected to each input terminal of the comparator 52 and the maximum value detection circuit 53, and the analog operation amount signal from the resistance voltage conversion circuit 21 is supplied. The output terminal of the comparator 52 is connected to the set terminal S of the flip-flop circuit 54. The output terminal of the maximum value detection circuit 53 is connected to the reset terminal R of the flip-flop circuit 54. Further, an operation clock is input to the clock terminal CP of the flip-flop circuit 54. The non-inverting output terminal Q of the flip-flop circuit 54 is connected to the start / stop control terminal of the timer 55, and the timer 55 is started only when the output terminal Q is "1". The inverting output terminal RQ of the flip-flop circuit 54 is connected to the reset terminal of the maximum value detection circuit 53.

The timer 55 may be constructed as follows, for example. The timer 55 includes a reference clock generation circuit 551, a gate circuit 552, and a counter 553, and has a non-inverting output terminal Q of the flip-flop circuit 54.
Is connected to one input terminal of the gate circuit 552, the output terminal of the reference clock generation circuit 551 is connected to the other input terminal of the gate circuit 552, and the gate circuit 553 is connected.
The output terminal of the counter may be connected to the input terminal of the counter 553.

The operation of the embodiment thus configured is shown in FIG.
It will be described with reference to FIGS. Note that FIG. 3 shows the characteristics relating to the resistance value corresponding to the operation of the switch device, in which the horizontal axis represents time and the vertical axis represents resistance value.
Further, FIG. 4 is a diagram showing a relationship of a signal regarding an operation time with respect to a change in voltage value, in which the horizontal axis represents time and the vertical axis represents voltage change.

According to the switch device 1 thus constructed, when the button 14 is pushed down against the urging force of the coil spring (not shown), the conductive rubber G of the movable contact 15 causes the semi-circular conductor of the fixed contact 16. Contact 18 and 18. The semi-circular conductors 18, 18 come into contact with each other by the conductive rubber G of the movable contact 15, and become smaller than the resistance value of the resistor 17. Further, when pressed, the conductive rubber G of the movable contact 15 is deformed while contacting the semicircular conductors 18, 18 of the fixed contact 16. As a result, the contact area of the conductive rubber G of the movable contact 15 is expanded, and accordingly, the contact resistance of the conductive rubber G having a resistance value to the semicircular conductors 18, 18 is gradually reduced.
Table 1 shows an example of the relationship between the contact area between the conductive rubber G and the semi-circular conductors 18, 18 and the resistance value measured by the resistance measuring device 21.

[0025]

[Table 1] In Table 1, the combined resistance Ro is the combined resistance due to the contact resistance between the resistance 17 and the conductive rubber G, and
Area = R / cm ² .

The combined resistance Ro which changes in this way is measured by the resistance measuring device 21. Such a change in the combined resistance Ro is as shown in FIG. In FIG. 3A, the vertical axis represents the change in resistance value and the horizontal axis represents the passage of time. In the figure, when the operator presses the control switch device, the movable part 15 descends and comes into contact with the fixed electrode 16, the resistance value starts to decrease according to the contact area, and when the pressing force is released, the resistance value increases again. In response to such an operation, the time Δt ₁ from when the resistance value starts to decrease to when it reaches the minimum value is detected. Further, the change ΔR ₁ of the resistance value from the start of the pressing operation to the release of the pressing force can be obtained. Similarly, FIG. 3 (b) and FIG. 3 (c)
As shown in, Δt ₂ and Δt ₃ are
Then, ΔR ₂ and ΔR ₃ are obtained according to the strength of the pressing force.

FIG. 3A shows an example in which the operation amount is small and the operation speed is slow, and the change ΔR ₁ of the combined resistance Ro is small and the operation time Δt ₁ is long. In addition, FIG.
In the case where the operation amount is large and the operation speed is fast, the change ΔR ₂ of the combined resistance Ro is large and the operation time Δt ₂ is short. Further, in FIG. 3C, in the case where the operation amount is large and the operation speed is slow, the change ΔR ₃ of the combined resistance Ro is shown.
Is large and the operation time Δt ₃ is long.

When such a change in the combined resistance Ro is measured by the resistance measuring device 21, the resistance measuring device 21 shows that the combined resistance R is
The change in the voltage value shown in FIG. 4 is generated according to the change in the resistance value of o. In FIG. 4, the vertical axis represents the output voltage value Eo appearing in the resistance measuring instrument 21, and the horizontal axis represents the passage of time. When an operation pressing force is applied to the movable part of the control switch device, the voltage output from the resistance measuring device starts to fall from the power supply voltage value and decreases in an analog manner. When the operator releases the operation pressure, the voltage rises and returns to the power supply voltage value. In this change waveform of the voltage value, when the time from the start of the fall of the voltage value to the minimum value is measured, Δt ₁ , Δt ₂ , Δt ₃
Are obtained respectively. When the output of the resistance measuring device is input to the flip-flop 54, pulses having pulse widths corresponding to Δt ₁ , Δt ₂ and Δt ₃ are obtained as shown in the lower side of FIG.

In this analog signal, as the information of the change of the combined resistance Ro, the information of the change amount ΔR of the resistance value, the time Δt of the change, and the integrated value of the change is included in the voltage signal. . The output voltage from the resistance measuring device 21 is converted into a digital signal by the A / D converter 22.

On the other hand, the analog signal output from the resistance measuring device 21 is input to the comparator 52 and the maximum value detection circuit 53. The comparator 52 outputs "1" when the analog signal exceeds a predetermined reference voltage Eo.
When the output of the comparator 52 becomes "1", the flip-flop circuit 54 is set and "1" is output from the flip-flop circuit 54. This activates the timer 55. That is, the gate circuit 552 is opened and the reference clock is supplied from the reference clock generation circuit 551 to the counter 553. The counter 553 counts this. Then, the maximum value detection circuit 53 monitors the input analog signal, and outputs "1" when detecting a voltage value smaller than the voltage input immediately before. As a result, the flip-flop circuit 54 is reset. "0" is output from the non-inverting output terminal Q of the flip-flop circuit 54, and the timer 5
5 stops. That is, the gate circuit 552 is closed,
The reference clock is no longer input to the counter 553. This allows the counter 553 to measure the time of the rising edge of the analog signal. At this time, since "1" is output from the inverting output terminal RQ of the flip-flop circuit 54, this is used to reset the maximum value detection circuit 53 in preparation for the next maximum value detection.

The digital signal thus obtained by the A / D converter 22 and the digital signal obtained by the timer 55 of the signal output means 5 are C through the interface 72.
It is input to the PU 71. For example, when the CPU 71 is used as a game machine, the character is moved by a distance corresponding to the resistance value change amount ΔR using the resistance value change amount ΔR of the combined resistance Ro and the resistance value change time Δt. While moving, the character can be moved for a short time or a long time according to the change time Δt. Further, the CPU 71 can express the magnitude of the impact force of the collision when the character collides with another character, for example, by the integrated value of the change in the combined resistance Ro.

As described above, according to the first embodiment, the information on the operation of the button 14 is the operation change amount, the operation change time,
Since it consists of the operation amount, there is an advantage that complicated processing can be performed.

(Second Embodiment of the Invention) FIG. 5 is a block diagram showing an example in which the second embodiment of the same switching device is connected to an information processing device. In the second embodiment, the same components as those in the first embodiment will be described with the same reference numerals.

Also in the switch device 1a shown in FIG. 5,
It is configured to be able to output an electric signal according to the operation amount and operation time of the switch. This switch device 1a also
It is electrically connected to the information processing device 7 and is capable of supplying the information processing device 7 with an electric signal according to the operation amount and operation time of the switch. This switch device 1
Also, a is composed of a switch 3a that outputs an electric signal according to the operation amount when operated, and a signal output unit 5a that obtains a signal regarding the operation time from the electric signal according to the operation amount from the switch 3a.

Here, the switch 3a includes the cover 1
3, the button 14, the movable magnet 15a, and the fixed coil 16a are provided, and are configured as follows. The cover 13 is an outer frame that constitutes the main body of the switch 11a, and a button 14 is fixed to the cover 13 so as to be vertically movable in the drawing. The button 14 is different from the first embodiment in that the movable magnet 15a is fixed to the lower end of the drawing, but the first embodiment is in that it is constantly urged to the upper side of the drawing by a coil spring or the like (not shown). Is the same as The movable magnet 15a is arranged so that the N pole is arranged in the lower part of the figure and the S pole is arranged in the upper part of the figure. Of course, the reverse is also acceptable. A fixed coil 16a is arranged at a position facing the movable magnet 15a. The fixed coil 16a is formed by spirally winding an insulated electric wire whose outside is insulated from the conducting wire, or by winding it into a coil. Both ends of the fixed coil 16a are connected to both input terminals of the operational amplifier 21a. The output terminal of the operational amplifier 21a is A /
It is connected to the input terminal of the D converter 22. The other end of the fixed coil 16a is connected to the non-inverting input terminal and the inverting input terminal of the operational amplifier 21a, so that the change and speed of the voltage generated in the fixed coil 16a can be amplified. The output terminal of the operational amplifier 21a is an A / D converter 2
Connected to 2. The A / D converter 22 is adapted to convert the amount of change in the voltage value from the operational amplifier 21a into a digital signal. The A / D converter 22 outputs a digital signal as a parallel signal.
The parallel output terminal of the A / D converter 22 is connected to the parallel input / output terminal of the interface 72 of the information processing device 7.

Further, the structure of the signal output means 5a is exactly the same as that of the first embodiment, and therefore its explanation is omitted. The information processing device 7 also has the same configuration as that of the first embodiment, and the description thereof will be omitted.

According to such a switch device 1a, when the button 14 is depressed, the movable magnet 15a is moved to the fixed coil 1a.
6a, and a voltage is generated in the fixed coil 16a according to the right-hand screw law according to the speed. This voltage is for button 1
Since it increases / decreases in proportion to the pushing speed of 4, the change of the voltage is amplified by the operational amplifier 21a, and the A / D converter 22
Then, it is converted into a digital signal and given to the CPU 71 through the interface 72 of the information processing device 7.

Operation time detection circuit 51 of signal output means 5
Obtains a digital signal regarding the pressing speed of the button 14 from the change in the voltage. The digital signal related to the operation time is input to the CPU 71 via the interface 72 of the information processing device 7.

The CPU 71 of the information processing device 7 performs various processes by using the above-mentioned digital signals regarding the operation amount and the operation time. For example, if the CPU 71 is used in the game machine, the same processing as in the first embodiment is performed.

According to the second embodiment described above, the button 1
Since the information regarding the operation of 4 includes the operation change amount, the operation change time, and the operation amount, it is possible to perform complicated processing.

(Third Embodiment of the Invention) FIG. 6 is a block diagram showing an example in which a third embodiment of the same switching device is connected to an information processing device. In the third embodiment, the same components as those in the first embodiment will be described with the same reference numerals.

Also in the switch device 1b shown in FIG. 6,
It is configured to be able to output an electric signal according to the operation amount and operation time of the switch. This switch device 1b also
It is electrically connected to the information processing device 7 and is capable of supplying the information processing device 7 with an electric signal according to the operation amount and operation time of the switch.

This switch device 1b is a switch 3a which, when operated, outputs an electric signal according to the operation amount.
And the signal output means 5a for obtaining a signal relating to the operation time from the electric signal corresponding to the operation amount from the switch 3a, which is the same as the first embodiment.

Here, the switch 11b includes the cover 1
3, the button 14, the movable electrode 15b, and the fixed electrode 16b are provided, and are configured as follows. The cover 13 is an outer frame that constitutes the main body of the switch 11b, and is the same as the first embodiment in that the button 14 is fixed to the cover 13 so as to be vertically movable in the figure. This button 14 differs from the first embodiment in that the movable electrode 15b is fixed to the lower end in the drawing, but the first embodiment is in that it is constantly urged upward in the drawing by a coil spring or the like not shown. Is the same as A fixed electrode 16b is provided at a position facing the movable electrode 15b. It should be noted that the movable electrode 15b and the fixed electrode 16b do not come into contact with each other even if they are pushed down to the final operation amount. The movable electrode 15b and the fixed electrode 1
Electric charge is applied to 6b from a DC power source (not shown) so that the movable electrode 15b is charged to the positive pole and the fixed electrode 16b is charged to the negative pole. The movable electrode 15b is connected to, for example, the non-inverting terminal of the operational amplifier 21b of the signal output means 12b, and the fixed electrode 16b is connected to the inverting terminal of the signal output means 12b. The output terminal of the operational amplifier 21b is connected to the A / D converter 22. Operational amplifier 2
In 1b, the movable electrode 15b is connected to the non-inverting input terminal and the fixed electrode 16b is connected to the inverting input terminal.
It is possible to amplify the change in the electrostatic capacitance and the speed according to the change in the gap between b and the fixed electrode 16b as a voltage signal. The output terminal of the operational amplifier 21b is an A / D converter 2
Connected to 2. The A / D converter 22 is adapted to convert the voltage signal of the capacitance value from the operational amplifier 21b and the variation amount of the capacitance value per unit time into a digital signal. The A / D converter 22 outputs a digital signal as a parallel signal. This A
The parallel output terminal of the / D converter 22 is connected to the information processing device 7
The parallel input / output terminal is connected to the interface 72 of the.

The signal output means 5b has exactly the same construction as that of the first embodiment. Also, the signal output means 5b
The output terminal of the operational amplifier 21b is connected to the input terminal of, and the output terminal of the signal output means 5b is connected to the parallel input terminal of the interface 72 of the information processing device 7. The information processing device 7 has the same configuration as that of the first embodiment, and therefore its explanation is omitted.

According to such a switch device 1b, the movable electrode 15b and the fixed electrode 16 are depressed by pressing the button 14.
The distance from b is reduced, and the capacitance changes. Since the capacitance increases or decreases in inverse proportion to the size of the distance between the movable electrode 15b and the fixed electrode 16b, the change in the capacitance is converted into a voltage change by the operational amplifier 21b, and this voltage is A / D converted. It is converted into a digital signal by the device 22. This digital signal is
CPU via interface 72 of information processing device 7
Hand it over to 71.

In the signal output means 5b, the change of the electrostatic capacity is judged by operating the button 14, and the button 14 is operated.
The change in the operation operation such as the speed of the is counted and output as a digital signal.

These two digital signals are given to the CPU 71 through the interface 72 of the information processing device 7. The CPU 71 performs various processes. For example, if the CPU 71 is used in the game machine, the same processing as in the first embodiment is performed.

According to the third embodiment described above, the button 1
Since the information regarding the operation of 4 includes the operation change amount, the operation change time, and the operation amount, it is possible to perform complicated processing.

(Fourth Embodiment of the Invention) FIG. 7 is a block diagram showing an example in which a fourth embodiment of the same switching device is connected to an information processing device. In the fourth embodiment, the same components as those in the first embodiment will be described with the same reference numerals.

Also in the switch device 1c shown in FIG. 7,
It is configured to be able to output an electric signal according to the operation amount and operation time of the switch. This switch device 1c also
It is electrically connected to the information processing device 7 and is capable of supplying the information processing device 7 with an electric signal according to the operation amount and operation time of the switch.

This switch device 1c is a switch 3c that outputs an electric signal according to the amount of operation when operated.
And a signal output means 5c for obtaining a signal relating to the operation time from an electric signal corresponding to the operation amount from the switch 3c.

Here, the switch 3c is constructed as follows. That is, the switch device 1c includes the cover 13, the button 14, the movable contact 15c, and the fixed contact 16c.
Is equipped with. The cover 13 is an outer device frame that constitutes the main body of the switch device 1c, and is the same as the first embodiment in that the button 14 is fixed to the cover 13 so as to be vertically movable in the drawing. The button 14 is different from the first embodiment in that a movable contact 15c made of a conductive rubber G having a trapezoidal shape in which the left side in the drawing is lower than the right side in the drawing is fixed to the lower end portion in the drawing, but a coil spring (not shown). It is the same as the first embodiment in that it is always urged upward in the drawing. The fixed contact 16c is provided at a position facing the movable setting 15c.
Is provided. In this fixed contact 16c, a plurality of electrodes 16c1, 16c2, 16c3, 16c4, 16c5 are arranged at regular intervals 1
9c1, 19c2, 19c3 and 19c4 are provided. The electrode 16c1 is grounded and the four electrodes 16c2,
16c3, 16c4, 16c5 are connected to the interface 72 of the information processing device 7. As a result, it is output as a 4-bit digital signal. A clock CLOCK is input to the interface 72.

FIG. 8 is a circuit diagram showing the configuration of the operation time detection circuit 51c of the signal output means 5c. For example, in the case of 4 bits, the operation time detection circuit 51c includes three exclusive OR (EXOR) circuits 56, 57, 58 and three
It is composed of one flip-flop circuit 59, 60, 61, three logical product (AND) circuits 62, 63, 64, a logical sum (OR) circuit 65, and a timer 55.

The electrode 16c2 is connected to one input terminal of the EXOR circuit 56, and the electrode 16c3 is connected to the EXO circuit.
It is connected to the other input terminal of the R circuit 56. Also,
The electrode 16c3 is connected to the reset input terminal of the flip-flop circuit 59. The electrode 16c3 is EXOR
The electrode 16c4 is connected to one input terminal of the circuit 57, and the electrode 16c4 is connected to the other input terminal of the EXOR circuit 57. The electrode 16c4 is connected to the reset terminal of the flip-flop circuit 60. The electrode 16c4 is EXOR
It is connected to one input terminal of the circuit 58 and is connected to the electrode 16
c5 is connected to the other input terminal of the EXOR circuit 58. The electrode 16c5 is connected to the reset terminal of the flip-flop circuit 61. Although not shown, a clock is supplied to the clock terminals of the flip-flop circuits 61, 62, 63, and when the counting of the timer 65 is completed, the flip-flop circuits 61, 6
The output terminals Q of 2, 63 can be cleared so as to be "1". The flip-flop circuits 59,
Output terminals Q of 60 and 61 are connected to AND circuits 62, 63 and 6 respectively.
4 are connected to the other input terminals. Also,
The output terminal of each EXOR circuit 56, 57, 58 is
The D circuits 62, 63 and 64 are respectively connected to one input terminal. The output terminals of the AND circuits 62, 63, 64 are connected to the input terminals of the OR circuit 65, respectively. The output terminal of the OR circuit 65 is connected to the start / stop control terminal of the timer 55. In addition, the timer 55
Is completely the same as that of the first embodiment, and its explanation is omitted. Further, the information processing device 7 also has the same configuration as that of the first embodiment, and therefore its explanation is omitted.

Next, the operation of the fourth embodiment will be described with reference to FIGS. 6 and 9. FIG. 9 is a timing chart for explaining the operation of the fourth embodiment, in which the abscissa indicates time and the ordinate indicates the signal of each part.

According to the switch device 1c thus constructed, when the button 14 is pressed against the urging force of the coil spring (not shown), the conductive rubber G of the movable contact 15c contacts the electrode 16c1 of the fixed contact 16c. To do. When it is further pressed, the electrodes 16c1 and 16c2 are connected by the conductive rubber G of the movable contact 15c deforming. Further, when the movable contact 15c is pressed down, the conductive rubber G of the movable contact 15c changes to the fixed contact 16c.
The electrodes 16c1, 16c2 and 16c3 are deformed while contacting them. In this way, the contact area of the conductive rubber G of the movable contact 15c is expanded, and accordingly, the electrodes 16c1, 16c2,
16c3, 16c4, 16c5 are gradually grounded. Such conductive rubber G and electrodes 16c1, 16c2, 16c3, 1
The connection relationship between 6c4 and 16c5 changes depending on the pressing force and the pressing speed of the button 14. The electrode 16c of such fixed contact 16c
The connection relation of 1, 16c2, 16c3, 16c4, 16c5 is directly input to the interface 72 of the information processing device 7 and given to the CPU 71.

Next, the flip-flop circuits 59, 60,
It is assumed that 61 is initially set so that the output terminal Q becomes "1". Here, for example, when the electrodes 16c1 and 16c2 come into contact with each other, the electrode 16c2 of the switch 3 becomes "0" (see FIG. 9A). This signal is output as the output signal of the switch device 1, but the signal output means 5 outputs the EXO signal.
Since the condition is not satisfied in the R circuit 56 at all, the timer 55 does not operate, and the timer 55 does not output a digital signal regarding the operation time.

Next, for example, the electrodes 16c1, 16c2, 16c3
Contact for a predetermined time, the electrodes 16c2, 16c3
Becomes "0" (see FIG. 9B). This is input to the information processing device 7 as an output signal of the switch 3 of the switch device 1.

On the other hand, at the signal output means 5, time t1
.About.t2 and the time t3 to t4, the EXOR condition is satisfied, and the EXOR circuit 56 outputs "1" at the time t1 to t2 and the time t3 to t4 as shown in FIG. 9B. It However, since the flip-flop circuit 59 becomes "0" at the time t2, the AND circuit 6
The output terminal of 2 does not output "1" from time t3 to t4, but only outputs "1" from time t1 to t2. This “1” is input to the start / stop control terminal of the timer 55 via the OR circuit 65. As a result, the time between the times t1 and t2 can be counted.

Further, for example, the electrodes 16c1, 16c2, 16
When c3 and 16c4 come into contact with each other for a predetermined time, the electrode 16
c2, 16c3 and 16c4 are each "0" (Fig. 9)
(See (c)). This is input to the information processing device 7 as an output signal of the switch 3 of the switch device 1.

On the other hand, in the signal output means 5, the EXOR circuit 56 outputs the EX at the times t11 to t12 and the times t15 to t16.
The OR condition is satisfied, and the EXOR circuit 57 sets the time t12 to t.
13 and the EXOR condition is satisfied at times t14 to t15, the EXOR circuit 56 outputs "1" at times t11 to t12 and times t15 to t16, as shown in FIG. 9C. From the EXOR circuit 57, FIG.
As shown in (c), times t12 to t13 and times t14 to t
At 15, "1" is output. However, since the output terminal Q of the flip-flop circuit 60 becomes "0" at time t14, the output terminal of the AND circuit 63 outputs the time t14.
“1” is not output at t15 to t15, and eventually t12 to t
Only "1" of 13 will be output. Also, at time t
Since the output terminal Q of the flip-flop circuit 59 becomes "0" in 15, the output terminal of the AND circuit 62
"1" is not output from time t15 to t16, and only "1" from time t11 to t12 is eventually output. When these “1” s are input to the OR circuit 65, the OR circuit 6
From the output terminal of 5, a signal which becomes "1" from time t11 to t13 is obtained. This signal is input to the start / stop control terminal of the timer 55. As a result, the time between the times t11 and t12 can be counted.

In addition, for example, the electrodes 16c1, 16c2, 16
When c3, 16c4 and 16c5 come into contact with each other for a predetermined time,
Electrodes 16c2, 16c3, 16c4, 16c5 are each "0"
(See FIG. 9D). This is input to the information processing device 7 as an output signal of the switch 3 of the switch device 1. On the other hand, in the signal output means 5, the EXOR circuit 56
EXOR at time t21-t22 and time t27-t28
Is satisfied, the EXOR circuit 57 causes the time t22 to t23.
Then, from time t26 to t27, the EXOR condition is satisfied,
The EXOR circuit 58 operates at times t23 to t24 and times t25 to t.
Since the EXOR condition is satisfied at 26, the EXOR circuit 56 outputs the time t21 to t as shown in FIG. 9 (d).
22 and "1" is output from time t27 to time t28, and EX
From the OR circuit 57, as shown in FIG.
"1" is output from 22 to t23 and t26 to t27, and the EXOR circuit 58 outputs "1" from t23 to t24 and t25 to t26 as shown in FIG. 9D.
Is output. However, since the output terminal Q of the flip-flop circuit 61 becomes "0" at time t25, the AND
The output terminal of the circuit 64 does not output "1" from time t25 to t26, but eventually outputs "1" from time t23 to t24. Further, since the output terminal of the flip-flop circuit 60 becomes "0" at time t25,
The output terminal of the AND circuit 63 does not output "1" from time t26 to t27, and eventually "1" from time t23 to t24.
Only will be output. Further, since the output terminal Q of the flip-flop circuit 59 becomes “0” at the time t27, the output terminal of the AND circuit 62 outputs from the time t27 to t27.
The "1" at 28 is not output, and only the "1" between times t21 and t22 is eventually output. When these "1" s are input to the OR circuit 65, a signal that becomes "1" from time t21 to t24 is obtained from the output terminal of the OR circuit 65. This signal is input to the start / stop control terminal of the timer 55. As a result, the time between the times t21 and t24 can be counted. The digital signal relating to the operation time thus obtained is given to the CPU 71 of the information processing device 7.

The CPU 71 executes various kinds of processing based on the change in the grounding (connection) relation of the electrodes 16c1, 16c2, 16c3, 16c4, 16c5 of the fixed contact 16c and the signal related to the operation time from the signal output means 5. To do.

In the fourth embodiment as described above, the same operational effect as that of the first embodiment can be obtained, and the operation information of the button 14 can be directly obtained as a digital signal.
There is an advantage that a resistance measuring device, an operational amplifier, an A / D converter, etc. can be eliminated.

(Fifth Embodiment of the Invention) FIG. 10 is a block diagram showing an example in which a fifth embodiment of the same switching device is connected to an information processing device. In the fifth embodiment, the same components as those in the first embodiment will be described with the same reference numerals.

The switch device 1d shown in FIG. 10 is a modified example of the switch device 1c shown in FIG.
Similar to the embodiment described above, it is configured to be able to output an electric signal according to the operation amount and operation time of the switch. This switch device 1d is also electrically connected to the information processing device 7, and is capable of supplying the information processing device 7 with an electric signal corresponding to the operation amount and the operation time of the switch. The switch device 1d includes a switch 3d that can output a signal related to the operation amount when operated, and a signal output unit 5d that outputs an electric signal related to the operation time from the signal related to the operation amount of the switch.

Here, the switch 3d includes the cover 1
3, the button 14, the movable contact 15d, and the fixed contact 16d are provided, which is similar to the fourth embodiment. The cover 1
This is the same as the first embodiment in that the button 14 is fixed to the switch 3 so that it can be moved up and down. The button 14 has a movable contact 15d, which is made of a conductive rubber G having a hemispherical shape shown in the figure, fixed to the lower end of the figure, and is constantly urged upward in the figure by a coil spring or the like (not shown). The same as the embodiment of At the position facing the movable setting 15d,
A fixed contact 16d is provided. This fixed contact 16d
Is a plurality of electrodes 16c around the center electrode 16d1.
2, 16c3, 16c4, 16c5 are fixed intervals 19d1, 19d
They are arranged in a circular shape with 2, 19d3 and 19d4. These electrodes 16d1 are grounded, and electrodes 16d2,
16d3, 16d4, 16d5 are directly connected to the interface 32 of the information processing device 7. A clock CLOCK is input to the interface 32.

Since the signal output means 5d is exactly the same as that of the fourth embodiment, its explanation is omitted.
Further, since the information processing device 7 has the same configuration as that of the first embodiment, the description thereof will be omitted.

According to the switch device 1d thus constructed, when the button 14 is pushed down against the urging force of the coil spring (not shown), the conductive rubber G of the movable contact 15d comes into contact with the electrode 16d1 of the fixed contact 16d. To do. When it is further pressed, the electrodes 16d1 and 16d2 are connected by the deformation of the conductive rubber G of the movable contact 15c. Further, when the movable contact 15d is pressed, the conductive rubber G of the movable contact 15d becomes fixed contact 16d.
The electrodes 16d1, 16d2, and 16d3 are deformed while contacting them. In this way, the contact area of the conductive rubber G of the movable contact 15c is expanded, and the electrodes 16d1, 16d2,
16d3, 16d4, 16d5 are gradually grounded. Such conductive rubber G and electrodes 16d1, 16d2, 16d3, 1
The connection relationship between 6d4 and 16d5 changes depending on the pressing force and the pressing speed of the button 14. The electrode 16d of such fixed contact 16d
The connection relationship of 1, 16d2, 16d3, 16d4, 16d5 is directly input to the interface 72 of the information processing device 7 and given to the CPU 71.

Further, the signal output means 5d measures the change in the operation time of the switch, and gives the measured signal to the CPU 71 of the information processing device 7.

The CPU 71 takes in a signal relating to the ground (connection) relationship of the electrodes 16d1, 16d2, 16d3, 16d4, 16d5 of the fixed contact 16d and the operation time from the signal output means 5d to be useful for various processes.

In the fifth embodiment as described above, the same operational effect as that of the first embodiment can be obtained, and the operation information of the button 14 can be directly obtained as a digital signal.
There is an advantage that a resistance measuring device, an operational amplifier, an A / D converter, etc. can be eliminated.

(Sixth Embodiment of the Invention) FIG. 11 is a block diagram showing a sixth embodiment of the present invention. In the sixth embodiment, the signal output means 5 is deleted from the first embodiment, and the signal output means 5 is constituted by the information processing device 9.
The information processing device 9 includes a CPU 91 and an interface 92.

The CPU 91 takes in the digital signal output from the switch 3, stores the change in the resistance value of the combined resistance Ro as a voltage value, and based on this information, changes the resistance value ΔR.
Then, the change time Δt of the resistance value and the integral value of the change of the resistance value are determined. This is determined as follows. CPU
Since the reference numeral 91 captures the combined resistance Ro at a constant time interval, the resistance value at the immediately previous capture time is compared with the resistance value at the current capture time, and when the resistance value at the current capture time becomes large, Judge that the resistance value of the previous capture time has reached the minimum value. Then, the CPU 91
From the above judgment, the time Δt from the beginning of the change of the resistance value to the time when the resistance value becomes the minimum value and the change amount ΔR of the resistance value can be obtained. Further, the CPU 91 can obtain the integral value of the change in the combined resistance Ro by adding all the resistance values at the respective capturing times. The variation ΔR and the variation time Δ of the combined resistance Ro thus obtained
The CPU 91 can give the integrated value of t and the change to another information processing device 7. Of course, the information processing device 7 and the information processing device 9 may be combined.

The embodiments of each switch device as described above can be applied to the following fields. Each of the switch devices can be applied to a user identification keyboard. In this case, the strength when the button on the pad is pressed is compared with some reference values to determine the input state of that button, and the strength of the attack in the fighting game, the strength of the throwing, kicking, etc. in the sports game. It may be applied so as to adjust the speed.

[0077]

As described above, according to the present invention, since an electric signal is obtained according to the operation amount and the operation time of the switch, the information processing device can be operated easily without any special processing, and Complex processing can be performed. Especially when the switch device of the present invention is applied to a game machine,
Since the operation speed and the operation amount are obtained as the operation amount, there is an effect that the control of the motion of the character displayed on the screen can be performed in a complicated and detailed motion mode.

Further, according to the invention, when the movable contact of the switch, which is made of conductive rubber, comes into contact with the fixed contact arranged in a disk shape to insulate the two conductors, the conductive rubber is deformed. The resistance value between the two conductors changes and is converted into a voltage value, which is converted into an electric signal having the operation amount of the switch and the information such as the operation speed by the signal output means. To give complicated control.

Further, according to the present invention, when the movable magnet approaches the fixed coil, a voltage is generated in the fixed coil according to the law of the right hand screw, and information such as the operation amount and the operation speed of the switch is displayed in the signal output means. Since the electric signal is included in the information processing apparatus, complicated control can be performed by supplying the electric signal to the information processing apparatus.

Further, according to the present invention, when the button is operated, the distance between the fixed electrode and the movable electrode is changed to change the electrostatic capacitance. Since the signal output means converts the signal into an electric signal having information such as the operating speed, it is possible to perform complicated control by supplying the electric signal to the information processing device.

Further, according to the present invention, when the movable contact made of trapezoidal conductive rubber is brought into contact with the fixed contact formed by arranging a plurality of electrodes at regular intervals at a position facing the movable contact, The conductive rubber is deformed and comes into contact with each electrode, the contact area of the conductive rubber with respect to each electrode is changed, and the contact relationship between a plurality of electrodes can be directly output as a digital signal, and the information on the operation time is obtained by the signal output means. Therefore, by providing this to the information processing device, complicated control can be performed, and since the digital signal is directly obtained, the analog-digital converter becomes unnecessary.

In addition, according to the present invention, the movable contact made of hemispherical conductive rubber comes into contact with the fixed contact formed by arranging a plurality of electrodes in an annular shape at regular intervals with respect to the center electrode,
Since the conductive rubber is deformed and comes into contact with the outer electrode in order from the center electrode, it is possible to perform complicated control by giving this to the information processing device.
Moreover, since the digital signal is directly obtained, the analog-digital converter becomes unnecessary.

Further, in the above invention, when the switch is applied to a game machine, the movement of the character can be controlled based on the information such as the magnitude of the pressing force of the button and the operation time. For example, the collision amount can be expressed in various ways.

[Brief description of drawings]

FIG. 1 is a configuration diagram showing a first embodiment of a switch device of the present invention.

FIG. 2 is a circuit diagram showing a signal output unit of the first embodiment.

FIG. 3 is a diagram showing an example of an operation signal obtained in the first embodiment.

FIG. 4 is a diagram for explaining the operation of the first embodiment.

FIG. 5 is a configuration diagram showing a second embodiment.

FIG. 6 is a configuration diagram showing a third embodiment.

FIG. 7 is a configuration diagram showing a fourth embodiment.

FIG. 8 is a circuit diagram showing a configuration of signal output means used in the fourth embodiment.

FIG. 9 is a timing chart for explaining the operation of the signal output means of the fourth exemplary embodiment.

FIG. 10 is a configuration diagram showing a fifth embodiment.

FIG. 11 is a configuration diagram showing a sixth embodiment.

[Explanation of symbols]

1 ... Switch device, 3 ... Switch, 5 ... Signal output means,
7 ... Information processing device, 9 ... Information processing device, 71 ... CPU,
72 ... Interface, 91 ... CPU, 92 ... Interface, 13 ... Cover, 14 ... Button, 15 ... Movable contact, 16 ... Fixed contact, 19 ... Gap

─────────────────────────────────────────────────── ─── Continuation of the front page (56) Reference JP-A-2-278321 (JP, A) JP-A-2-4029 (JP, A) JP-A-2-148320 (JP, A) JP-A-5- 36507 (JP, A) Actual development Sho 55-10224 (JP, U) Actual development 5-87760 (JP, U) Actual development 1-62627 (JP, U) (58) Fields investigated (Int.Cl. ⁷ , DB name) G06F 3/02-3/037 H01H 13/00-13/76 A63F 9/24-13/12

Claims (4)

(57) [Claims] 1. Corresponding to the size of the pressing operation time of the player
Press the button on the game machine that controls the motion of the game character.
A switch device for outputting a pressure operation time , wherein a movable part made of a conductive member is disposed so as to face the movable part.
And a fixed portion having a predetermined electric resistance value.
Is pressed by a person to generate a combined electric voltage between the movable part and the fixed part.
A switch configured to increase or decrease the resistance value in an analog manner.
Switch and the pressing operation causes the combined electrical resistance value to start falling.
When the combined electrical resistance value approaches the minimum value from the
With a measuring means for measuring the pressing operation time to the point,
Switch device. 2. Whether or not the movable portion comes into contact with the fixed portion
The detection device according to claim 1, further comprising a detection unit that detects whether
Switch device. 3. Corresponding to the size of the pressing operation time of the player
A game machine that controls the movement of game characters and a player
In response to the manual operation of
A computer system consisting of a switch device that outputs
A stem, wherein the switch device comprises a movable part made of a conductive member,
It is arranged to face the movable part and has a predetermined electric resistance value.
Including the fixed portion, and the movable portion by the pressing operation of the player
The combined electrical resistance value with the fixed part increases or decreases in an analog manner.
The switch section configured as described above and the combined electric resistance value starts to fall by the pressing operation.
When the combined electrical resistance value approaches the minimum value from the
With a measuring means for measuring the pressing operation time to the point,
Computer system. 4. A movable part made of a conductive member, and the movable part.
Part that is arranged facing the part and has a predetermined electric resistance value
And the movable part and the fixed part are pressed by a player.
Corresponding to the increase or decrease in the contact area with the fixed part, the combined electrical resistance of both
Switch part configured to increase / decrease the value in analog
And the pressing operation causes the composite electric resistance value to start falling.
When the combined electrical resistance value approaches the minimum value from the
Measuring means for measuring the pressing operation time up to a point, and a detecting means for detecting whether or not the movable part contacts the fixed part.
A switch device comprising a discharging means.