JP4303877B2 - Multifunction mouse - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a multifunction mouse that is a pointing device capable of controlling a display screen such as a cursor or a window on a display.
[0002]
[Prior art]
In general, a personal computer generally used is a desktop personal computer or a notebook personal computer as a portable type.
As a pointing device of the desktop type personal computer, a mouse having two input switches including a right button and a left button arranged on the upper surface of the case and a ball-shaped rotating body arranged on the lower surface of the case is mainly used. is there.
Such a mouse has a display screen on a display by rotating an rotator when an operator moves horizontally on a flat desk or the like and clicking an input switch consisting of a left button or a right button. For example, the cursor is moved to a desired position, a window where the cursor is located is opened, and application software is started.
[0003]
In addition, a portable notebook type personal computer has a pointing device called a touchpad or trackpad on the operating surface side where multiple keyboards are arranged or the lid side where the display is formed. Has been.
Such a pointing device comprising a touchpad or the like places a forefinger on a small, substantially rectangular, flat operation surface, and slides the index finger on the operation surface, so that a display screen on the display, for example, a cursor is displayed. It can be moved to a desired position.
[0004]
If there are different types of pointing devices such as the mouse or touchpad as described above, for example, people who always use a desktop computer are accustomed to operating the mouse, and are also portable and notebooks. People who always use book-type computers are accustomed to the operation of touchpads, for example.
[0005]
[Problems to be solved by the invention]
Therefore, if a person who always uses a desktop computer uses a notebook type computer for the first time in a long time, the touchpad used in the notebook type computer moves a small index finger on the small operation surface. Must be operated with. Since the person who always uses a desktop personal computer is not used to such an operation, there is a problem that it takes time to operate the touch pad. Also, if a person who always uses a notebook computer uses a desktop computer for the first time in a while, the mouse used in the desktop computer must be moved and moved on the desk. Don't be. Since the person who always uses the notebook type personal computer is not used to such operation, there is a problem that it takes time to operate the mouse.
[0006]
In addition, even those who are accustomed to using a portable notebook-type personal computer may get tired of the index finger when operating the small operation surface of the touchpad with the index finger for a long time.
Even those who are used to using desktop computers sometimes get tired of their arms when they operate the mouse for a long time.
[0007]
The present invention has been made in view of the above-described problems, and is provided with an integrated small coordinate input device that can be operated with an index finger on a mouse, and is accustomed to the operation of a small coordinate input device such as a touchpad. An object is to provide a multi-function mouse in which a person operates a small coordinate input device integrally formed with a mouse with an index finger, and a person familiar with the mouse operation can perform a normal mouse operation.
[0008]
[Means for Solving the Problems]
As a first means for solving the above-described problems, the multifunction mouse of the present invention includes a case, a rotating body arranged inside the case and capable of controlling a display screen on the display, and a movable electrode on the lower surface. And a coordinate input device disposed on the surface of the case capable of controlling a display screen on the display, wherein the coordinate input device is for detecting a capacitance facing the movable electrode of the operation member. A plurality of fixed electrodes and a contact portion connected to a switch circuit at a position surrounded by the plurality of fixed electrodes are formed on the substrate, and the movable member is operated by operating the operating member. The change in capacitance is detected from each of the fixed electrodes by bringing the switch circuit into contact with or separated from each other, and the switch circuit is turned ON / OFF by operating the operation member to bring the movable electrode into contact with or separated from the contact part. The coordinate input device and the rotating body are respectively connected to the personal computer side, and have a first circuit for connecting the coordinate input device and the personal computer, and a second circuit for connecting the rotating body to the personal computer. Switching means for switching between the first circuit and the second circuit is provided, and the switching means detects the switching signal from the coordinate input device generated by the continuous ON operation of the switch circuit , whereby the first means And the second circuit to control the display screen according to the output data from the rotating body or the output data from the coordinate input device, and the application software by switching the switch circuit by the contact portion. Is configured to start.
[0009]
Further, as a second solving means for solving the above-mentioned problem, first and second input switches that can be pressed are arranged in the case, and the rotating body is a first operation surface formed by a bottom surface of the case. The first input switch is provided on a second operation surface formed in a direction orthogonal to the first operation surface, and the second input switch is provided on a third operation surface on the side facing the first operation surface. The coordinate input device is arranged on the third operation surface .
[0011]
As a third means for solving the above-mentioned problem, the movable electrode is formed on an operation member disposed on the third operation surface, and the first input switch is operated by a thumb. The second input switch is disposed on the third operation surface that can be operated with a middle finger, and the coordinate input device is disposed on the third operation surface that can be operated with an index finger .
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the multifunction mouse of the present invention will be described with reference to FIGS. First, FIG. 1 is a perspective view of a multifunction mouse of the present invention, FIG. 2 is a sectional view of a principal part of the coordinate input device according to the present invention, and FIG. 3 is a plan view of a fixed electrode of the coordinate input device according to the present invention. FIG. 4 is a perspective view of another embodiment of the multifunction mouse of the present invention.
[0013]
First, as shown in FIG. 1, the case K of the multifunction mouse of the present invention includes a first operation surface 1 having a flat bottom surface and side surfaces formed in a direction perpendicular to the first operation surface 1. A second operation surface 2, a third operation surface 3 comprising an upper surface on the side facing the first operation surface 1, a side surface 4 at a position facing the second operation surface 2, and a front side surface 5 on the front side in the figure. The outer shape is formed into a polyhedron.
In such a case K, when the third operation surface 3 is curved and the operator's palm is positioned on the third operation surface 3, the case K is adapted to the palm without any sense of incongruity.
[0014]
Further, a ball-shaped rotating body (not shown) formed by resin molding or the like is rotatably disposed on the first operation surface 1 formed of a flat bottom surface of the case K. When the operator moves the case K horizontally with the case K positioned on a flat surface such as a desk, the rotating body rotates and is displayed on the display (not shown) of the personal computer. For example, movement control of the cursor to a desired icon or menu can be performed.
That is, the position of the display screen on the display can be controlled by horizontally moving the case K and rotating the rotating body.
[0015]
A first input switch 6 that can be pressed in the direction of arrow A by a thumb operation is disposed on the second operation surface 2 of the case K. Further, a second input switch 7 that can be pressed in the direction of the arrow B by a middle finger operation is disposed near the side surface 4 of the third operation surface 3 and near the front side surface 5.
The third operation surface 3 is provided with a coordinate input device 8 capable of controlling an index finger and capable of controlling a display screen on the display on the left side of the second input switch 7 in the figure. As shown in FIG. 2, the coordinate input device 8 is made of conductive rubber having conductivity as a whole, and an operation member 9 having elasticity is disposed. The operation member 9 has a circular operation surface 9a formed on the upper surface, a disk-shaped flange 9b is formed on the outer peripheral side of the operation surface 9a, and an inner surface facing the operation surface 9a is formed in a concave shape. A flat movable electrode 9c is formed on the inner surface.
[0016]
The operation member 9 is attached to the case K in a state where the operation surface 9a is exposed from the third operation surface 3 and the collar portion 9b is attached to the case K by the printed wiring board 10 disposed below the operation member 9 in the figure. The operation member 9 is attached to the case K by holding the pressure contact.
Further, on the surface of the printed wiring board 10, a fixed electrode 11 made of a conductive film as shown in FIG. 3 is formed by printing or the like on a portion facing the movable electrode 9 c of the operation member 9.
[0017]
The fixed electrode 11 is divided into four parts in a fan shape, and the first electrode 11a, the second electrode 11b, the third electrode 11c, and the fourth electrode 11d are formed on the printed wiring board 10 by being electrically insulated from each other. ing. The electrodes 11a to 11d are covered with a dielectric film 12 having a dielectric constant of 2 to 4, for example. Therefore, even if the operation surface 9a of the operation member 9 is pressed downward in the figure, the movable electrode 9c and the fixed electrode 11 are not electrically short-circuited.
A gap 15 having a predetermined dimension is formed between the movable electrode 9c and each of the electrodes 11a to 11d via the dielectric film 12.
[0018]
In addition, a circular contact portion 13 is exposed and provided in a central portion surrounded by the respective fan-shaped electrodes 11a to 11d.
The contact portion 13 is formed of the same conductive film as the fixed electrode 11, and a switch circuit is formed between the movable electrode 9 c and the contact portion 13. When the central portion of the operation surface 9a of the operation member 9 is pressed downward in the figure, the movable electrode 9c comes into contact with the contact portion 13 to turn on the switch circuit, and when the operation surface 9a is released, the movable electrode 9c is contacted. The switch circuit is turned off at a distance from the section 13.
[0019]
Further, a ground electrode 14 that is insulated from the fixed electrode 11 is exposed on the outer periphery of the fixed electrode 11, and the flange portion 9 b of the operation member 9 is positioned on the ground electrode 14, so that the conductive operation is performed. The member 9 and the ground electrode 14 are electrically connected. For this purpose, a predetermined capacitance is formed between the movable electrode 9c and the fixed electrode 11 with a gap 15 therebetween, and the operation surface 9a of the operation member 9 on each electrode 11a to 11d is moved downward. Is pressed, the gap 15 between the movable electrode 9c and the fixed electrode 11 changes, and the capacitance between the movable electrode 9c and each of the electrodes 11a to 11d is variable.
[0020]
The function of each of the electrodes 11a to 11d of the fixed electrode 11 will be described. When the capacitance between the first electrode 11a and the movable electrode 9c is varied, the change in capacitance corresponds to the change in the capacitance. For example, the cursor can be controlled upward.
Further, when the electrostatic capacitance between the second electrode 11b and the movable electrode 9c is varied, for example, the cursor is moved to the left on the display, and the electrostatic capacitance between the third electrode electrode 11c and the movable electrode 9c. When the capacitance is changed, for example, the cursor is moved downward on the display, and when the capacitance between the fourth electrode 11d and the movable electrode 9c is changed, for example, the cursor is moved to the right on the display. Each can be controlled.
[0021]
When the central portion of the operation surface 9a is pressed downward, the movable electrode 9c comes into contact with the contact portion 13 and the switch circuit between the movable electrode 9c and the contact portion 13 is turned on. When this switch circuit is turned on, it is possible to activate, for example, application software, which is an object on which the cursor on the display is located.
[0022]
In the operation of the multi-function mouse of the present invention, first, when used as a mouse function, the case K is positioned on a flat desk or the like, and the case K is moved horizontally to rotate the rotating body. Then, for example, the cursor on the display is controlled to move to a desired icon or menu.
Then, with the cursor on the display moved to the desired icon or menu, click the first input switch 6 with your thumb or double-click to open the desired window or start application software. Can be.
[0023]
When the multifunction mouse of the present invention is used, the index finger is positioned on the operation surface 9a of the operation member 9, and the operation surface 9a on the fixed electrode 11 on the side where the cursor is to be moved is pressed downward. The cursor can be moved to a desired position. Thereafter, by pressing the center portion of the operation surface 9a with the index finger, the switch circuit between the movable electrode 9c and the contact portion 13 is turned on, and a desired window may be opened or application software may be activated. it can.
[0024]
In the multifunction mouse of the present invention, the coordinate input device 8, the first and second input switches 6 and 7, and the rotating body (not shown) are connected to a personal computer (not shown). .
A first circuit (not shown) for connecting the coordinate input device 8 and the personal computer, and a second circuit (not shown) for connecting the first and second input switches 6 and 7 and the rotating body are provided. A switching means (not shown) for switching between the first and second circuits is provided.
This switching means is a switch circuit between the movable contact 9c and the contact portion 13 by, for example, pressing the center portion of the operation surface 9a twice continuously when the coordinate input device 8 is operable. Turns on continuously twice. When the switch circuit is turned ON twice consecutively, it becomes a switching signal from the coordinate input device 8, and when the switching means detects this switching signal, the first circuit is cut off and switched to the second circuit, and the mouse function Can be operated.
[0025]
When the mouse function is operable, for example, when the second input switch 7 is double-clicked, this double-click electric signal becomes a switching signal from the second input switch 7, and the switching means detects this switching signal. By doing so, the second circuit is cut off and switched to the first circuit, and the coordinate input device 8 can be operated.
[0026]
Even if the operation switch 9 of the coordinate input device 8 is accidentally pressed when the mouse switch is activated and the second circuit is connected to the personal computer, the multi-function switch of the present invention can Since the connection with the personal computer is cut off, the cursor on the display will not malfunction.
By using the multi-function input mouse of the present invention, a person who is used to operating the mouse connects the second circuit and the personal computer with the switching means to start up the mouse function, and the first and second input switches 6 and 7 are connected. And the rotating body can be operated with a mouse, and operability is good. In addition, a person who is used to operating a small coordinate input device such as a touchpad described in the conventional example can operate the coordinate input device by connecting the first circuit and the personal computer with the switching means, thereby improving operability. Good.
[0027]
In the description of the embodiment of the present invention, assuming that the operator is right-handed, the first input switch 6 is provided on the second operation surface 2, and the second input switch 7 is disposed on the right side surface 4 of the third operation surface 3. As described in the other embodiment of the present invention, when the operator is left-handed, as shown in FIG. 4, the case K has a rotating body ( A second input switch 6 is provided on the second operation surface 2 on the right side of the figure formed in a direction perpendicular to the first operation surface 1 and a third operation surface near the side surface 4 on the left side of the figure. 3 may be provided with a second input switch 7.
The coordinate input device 8 at this time is provided on the right side of the second input switch 7 in the figure.
By using such a multifunction mouse shown in FIG. 4, even if the operator is left-handed, the first input switch 6 can be operated by the thumb, the second input switch 7 can be operated by the middle finger, and the coordinate input switch. 8 can be operated with the middle finger.
[0028]
【The invention's effect】
As described above, in the multifunction mouse of the present invention, the first input switch is provided on the second operation surface formed in the direction orthogonal to the first operation surface, and the second input switch is opposed to the first operation surface. A coordinate input device that can control the display screen on the display is provided on the third operation surface on the side, so the mouse operation and the operation of the coordinate input device with the index finger are performed with one mouse. You can. Therefore, those who are used to operating the mouse can arbitrarily select the mouse operation, and those who are used to operating the coordinate input device with the pointing finger can arbitrarily select the operation of the coordinate input operation. Can be provided.
[0029]
In addition, the coordinate input device changes the capacitance by moving the movable electrode to and away from the fixed electrode, and controls the display screen on the display in accordance with the amount of change in the capacitance. Even if the capacitance changes, the display screen on the display can be moved greatly, the coordinate input device can be made small, and it can be attached to the mouse without taking up a large space.
[0030]
The movable electrode is formed on an operation member disposed on the third operation surface, the first input switch is operable on the second operation surface operable with a thumb, and the second input switch is operable on a middle finger. Since the coordinate input device is arranged on the third operation surface on the third operation surface where the operation member can be operated with an index finger, when operating as a mouse function, the operation of the thumb and middle finger and the case horizontally Multi-function mouse that can be operated by moving and can be operated with only the index finger when operating the coordinate input device, and can be operated easily by either those who are used to operating the mouse or those who are used to the coordinate input device Can provide.
[0031]
Further, a switching means for switching between the first and second circuits is provided, and when the switching means detects the switching signal from the coordinate input device or the switching signal from the first or second input switch, Since the first and second circuits are switched, when the mouse is operated, the first circuit connecting the coordinate input device and the personal computer is cut off and switched to the second circuit.
Therefore, even if the operation member of the coordinate input device is accidentally pressed during the mouse operation, the display screen on the display is not erroneously operated.
[Brief description of the drawings]
FIG. 1 is a perspective view of a multifunction mouse of the present invention.
FIG. 2 is a cross-sectional view of a main part of a coordinate input device according to the present invention.
FIG. 3 is a plan view of a fixed electrode of the coordinate input device according to the present invention.
FIG. 4 is a perspective view of another embodiment of the multifunction mouse of the present invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 1st operation surface 2 2nd operation surface 3 3rd operation surface 4 Side surface 6 1st input switch 7 2nd input switch 8 Coordinate input device 9 Operation member 9a Operation surface 9b Hook 9c Variable electrode 10 Printed wiring board 11 Fixed electrode 11a 1st electrode 11b 2nd electrode 11c 3rd electrode 11d 4th electrode 12 Dielectric film 13 Contact part 14 Ground electrode 15 Gap

Claims (3)

A case, a rotating body disposed inside the case and capable of controlling a display screen on the display; an operation member having a movable electrode on a lower surface; and the case surface capable of controlling the display screen on the display. A coordinate input device, wherein the coordinate input device includes a plurality of fixed electrodes for detecting capacitance facing the movable electrode of the operation member, and a switch circuit at a position surrounded by the plurality of fixed electrodes. A connected contact portion is formed on the substrate, and a change in capacitance is detected from each of the fixed electrodes by operating the operation member to bring the movable electrode into contact with or separated from the plurality of fixed electrodes, By operating the operating member to bring the movable electrode into and out of contact with the contact portion, the switch circuit is turned ON / OFF, and the coordinate input device and the rotating body are respectively connected to the personal computer side, A first circuit for connecting the a target input device PC, and a second circuit for connecting the rotary member to said computer, switching means for switching the first and second circuits is provided, When the switching means detects the switching signal from the coordinate input device generated by the continuous ON operation of the switch circuit, the first and second circuits are switched to output data from the rotating body or the A multifunction mouse that controls the display screen in accordance with output data from a coordinate input device and activates application software by switching the switch circuit by the contact portion.   First and second input switches that can be pressed are disposed on the case, the rotating body is provided on a first operation surface including a bottom surface of the case, and the first input switch is orthogonal to the first operation surface. The second input switch is provided on the third operation surface on the side facing the first operation surface, and the coordinate input device is provided on the third operation surface. The multifunction mouse according to claim 1.   The movable electrode is formed on an operating member disposed on the third operating surface, the first input switch is operated on the second operating surface that can be operated with a thumb, and the second input switch is operated on the middle finger. The multifunction mouse according to claim 2, wherein the coordinate input device is provided on each of the third operation surfaces on which the operation member can be operated with an index finger.

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