The present invention relates in general to user input devices for controlling computers, and in particular to a user input device with a control button group in a trigger configuration.
Among the most popular types of computer games are games known as first-person shooters. Such games vary substantially in details, but they all provide a display that depicts a scene from the perspective of a gun-wielding character. The user maneuvers the character through the scene and scores points by shooting enemies of various sorts. Such games are often played on a conventional computer, and the user controls the character using the computer keyboard and mouse. For instance, pressing the left mouse button fires a shot, moving the mouse aims the gun, and pressing designated keys on the keyboard moves the character around in the scene.
Computer mice have numerous limitations when used as game controllers. For example, the horizontal hand position required when operating a mouse can create stress on the wrist, leading to discomfort and possible repetitive stress injury. In addition, moving the mouse generally involves motion of the entire arm, making it difficult to precisely control the motion. Further, mice are usually equipped with a scroll wheel positioned between the left and right mouse buttons, and many games support using the scroll wheel for user input. The scroll wheel is typically operated by a curling or uncurling finger motion that can also increase stress on the hand. In addition, using a mouse does not replicate the feel of using a gun, which creates distance between the user's perception and the virtual world of the game.
It would therefore be desirable to provide an improved game control device that provides the user an improved gaming experience.
Embodiments of the present invention provide computer input devices (e.g., computer mice) that may be shaped generally like pistols or other guns. In accordance with one embodiment, a computer input device has a trigger disposed on a forward surface of a vertically oriented grip member so that the trigger is operable by a first finger of a user's hand; button input signals are generated in response to operation of the trigger. A scroll wheel is rotatably mounted on the grip member and is positioned so as to be operable by the user's thumb, and scroll input signals are generated in response to operation of the scroll wheel.
According to another aspect of the present invention, a device for providing user input to a computer includes a base member, a grip member, a tracking sensor, a trigger, a trigger sensor, a scroll wheel, a first scroll wheel sensor, and a signaling circuit. The base member is adapted to rest on a support surface. The grip member, which is adapted to be held by a substantially vertically orientated hand of a user, is fixedly coupled to the base member and extends upward therefrom. The tracking sensor is mounted in the base member and is configured to generate a position control signal in response to a motion of the base member. The trigger is disposed on a forward surface of the grip member so as to be operable by a first finger of a hand holding the grip member. The trigger sensor is coupled to the trigger and is configured to generate a first button input signal in response to operation of the trigger. The scroll wheel is rotatably mounted on the grip member and is positioned so as to be rotatable by a thumb of the hand holding the grip member. The first scroll wheel sensor is coupled to detect a rotational movement of the scroll wheel and is configured to generate a scroll input signal in response to the rotational movement of the scroll wheel. The signaling circuit is configured to transmit the position input signal, the trigger input signal, and the scroll input signal to a computer. In some embodiments, the scroll wheel may be further mounted so as to be inwardly depressible toward a center vertical plane of the grip member, and a second scroll wheel sensor may be coupled to detect an inward depression of the scroll wheel and configured to generate a scroll press input signal in response to the inward depression of the scroll wheel.
In some embodiments, a second button control may be positioned below the trigger so as to be operable by a second finger of the hand holding the grip member, and a second button sensor may be coupled to detect operation of the second button control and configured to generate a second button input signal in response to the operation of the second button control.
The following detailed description together with the accompanying drawings will provide a better understanding of the nature and advantages of the present invention.
Overview
Embodiments of the present invention provide computer input devices (e.g., computer mice) that may be shaped generally like pistols or other guns. In accordance with one embodiment, a computer input device has a trigger disposed on a forward surface of a vertically oriented grip member so that the trigger is operable by a first finger of a user's hand; button input signals are generated in response to operation of the trigger. A scroll wheel is rotatably mounted on the grip member and is positioned so as to be operable by the user's thumb, and scroll input signals are generated in response to operation of the scroll wheel.
A grip member 110 is fixedly connected to a rearward section 112 of base member 102 and extends generally upward from base member 102. Grip member 110 is advantageously sized and shaped so that it can be held in a user's hand in a manner similar to holding a pistol grip. In this embodiment, grip member 110 includes a forward-extending trigger guard 114 designed to accommodate a user's index finger. A primary trigger 116 is positioned on the forward surface of grip member 110 inside the ring formed by trigger guard 114 and mounted in such a way that it can be depressed by the user's index finger while the user is holding grip member 110. A secondary trigger button 118 is positioned on an under surface of trigger guard 114 near where trigger guard 114 joins grip member 110. Secondary trigger button 118 is mounted in such a way that can be depressed by the user's second finger while the user is holding grip member 110. A scroll wheel 120 is rotatably mounted on the side of grip member 110 above the location of triggers 116, 118 and is disposed so as to be rotatable by the user's thumb while the user is holding grip member 110.
A barrel member 122 extends forward from the upper portion of grip member 110, providing a surface for attaching trigger guard 114 and giving computer mouse 100 a generally pistol-like appearance.
An interface cable 124, which may be, e.g., a conventional Universal Serial Bus (USB) cable, is provided to transmit mouse input signals (also referred to herein as control signals) from computer mouse 100 to a computer. The mouse input signals, which may be generally conventional in nature, advantageously include position and/or motion signals from the tracking sensor housed in forward section 106 of base member 102, as well as button or scrolling signals generated in response to user operation of triggers 116, 118 and scroll wheel 120. In one embodiment, operation of primary trigger 116 generates conventional “Left Button Up/Down,” or “Button1 Up/Down,” signals; operation of secondary trigger 118 generates conventional “Right Button Up/Down,” or “Button2 Up/Down,” signals; and operation of scroll wheel 120 generates conventional scroll wheel signals (e.g., “Scroll Down,” “Scroll Up,” “Scroll Button Press,” “Scroll Button Release”).
In one embodiment, base member 102, grip member 110 and barrel member 120 are formed of injection-molded plastic. Left-side and right-side sections that incorporate portions of base member 102, grip member 110 and/or barrel member 120 may be molded as unitary work pieces and, after installation of electronic and electromechanical components, may be fastened together e.g., using snap fasteners, bolts, rivets, screws, interlocking tabs and slots, and so on. In one embodiment, the sides 124 of grip member 110 may be padded with a softer material for increased user comfort and/or an esthetically pleasing appearance. Triggers 116, 118 may be made of plastic or other material (e.g., metal) as desired. Scroll wheel 120 may also be made of any material, including plastic; in one embodiment, the outer periphery of scroll wheel 120 is made of a gel-like plastic with a patterned (e.g., ribbed) surface for increased comfort and traction against the user's thumb. It will be appreciated that particular material compositions or assembly techniques are not critical to the present invention; conventional materials and manufacturing processes may be used.
Grip Position and Orientation
The orientation of grip member 110 relative to base member 102 advantageously allows a user's hand to be in an ergonomically favorable vertical position while operating computer mouse 100.
In preferred embodiments, further ergonomic advantages may be provided by offsetting the location of the tracking sensor relative to grip member 110.
Further, the offset distance d can be selected to amplify small wrist movements into larger movements of a mouse-controlled cursor across the screen to a desired degree; in general, larger distances d correspond to larger amplifications. In some embodiments, the degree of amplification can also be adjusted via appropriate driver software for processing mouse input signals. Such software typically provides adjustable scaling factors for use in translating motion of the mouse across a given distance to motion of a mouse-controlled screen cursor (or pointer) across some number of screen pixels. Some operating systems provide control interfaces that allow a user to adjust this scaling factor, e.g., by modifying a “pointer speed” setting.
Tracking Sensor and Triggers
Tracking sensor 308 may be implemented using a variety of sensors, including tracking sensors known in the art.
Control buttons (triggers 116, 118) for computer mouse 100 (
Triggers 116 and 118 are mounted on respective pivotable supports (e.g., dowel pins) 504 and 506, allowing triggers 116 and 118 to be independently depressed from their resting positions by a user. Springs 508 and 510 are disposed so as to be compressed when triggers 116 and 118, respectively, are depressed and to restore triggers 116 and 118 to their resting positions upon release by the user. An electrical switch assembly 512 that includes switches 514 and 516 is disposed inside housing 502 and behind triggers 116, 118 such that switch 514 is closed when trigger 116 is depressed and switch 516 is closed when trigger 118 is depressed. Switches 514 and 516 are advantageously each implemented as a single throw switch: when a switch 514 or 516 is closed by depressing the corresponding trigger 116 or 118, current flows; when a switch 514 or 516 is open, no current flows. Switch assembly 512 may be electrically connected (e.g., via wires, not explicitly shown in
It will be appreciated that different triggers or buttons, mountings, and signaling elements may be substituted for those shown in
Scroll Wheel
Scroll wheel 120 is mounted on a rotatable support 520 that includes an axis member 522. At one side of support 520 is a position encoder 524 (which may be of conventional design) that generates signals in response to rotation of support 520. At the other side is a switch 526, and support 520 is advantageously mounted such that switch 526 can be closed by depressing scroll wheel 120 laterally inward. Switch 526 is advantageously also a single-throw switch. A scroll wheel return mechanism (not explicitly shown) may also be provided to restore scroll wheel 120 to its resting position after inward pressure is released. It will be appreciated that different wheel designs, mountings, and signaling elements may be substituted for those shown.
Scroll wheel 120 is advantageously placed and oriented so as to be operable by a user's thumb while the user is holding grip member 110.
It will be appreciated that while the user's hand 602 in
In this embodiment, scroll wheel 120 is advantageously depressible from either side. For example, two parallel-coupled switches may be provided, with one switch arranged to be closed by lateral depression of exposed left peripheral portion 702 toward major axis 206 of grip member 110 and the other switch arranged to be closed by lateral depression of exposed right peripheral portion 704 toward major axis 206 of grip member 110. Scroll wheel 120 is advantageously mounted so as to return to its resting position after the pressure from either side is released.
It should be noted that in this embodiment triggers 116, 118 are also operable by either hand as a result of their placement as shown in
It should also be noted that in this embodiment, a user holding grip member 110 in his or her hand can simultaneously cover primary trigger 116 with the index finger, secondary trigger 118 with the second finger, and scroll wheel 120 with the thumb. The ability to simultaneously cover all controls while holding mouse 100 can decrease the user's reaction time and improve game play.
Counterweight
Referring again to
While the invention has been described with respect to specific embodiments, one skilled in the art will recognize that numerous modifications are possible. For instance, the particular shapes and design features shown in the drawings may be modified as desired. Moreover, while embodiments described herein are referred to as computer mice and include controls and associated circuitry that provide conventional computer mouse input signals to a computer, it will be appreciated that the invention is not so limited. User input devices with more, fewer, or different controls and signals are also within the scope of the invention, and the arrangement of controls may be varied from that shown and described herein. Dimensions and angles described herein may also be modified or varied as desired.
Electromechanical and electronic signaling elements may also be varied from those shown and described herein. Any type of tracking sensor, including mechanical sensors (e.g., roller sensors of the type used in some conventional computer mice), gyroscopic sensors and so on, may be substituted for the tracking sensors described herein. Any number of control buttons and/or scroll wheels may be arranged in various ways and may activate a variety of mechanical or electromechanical signaling devices to generate input signals for a computer. Input signals may be transmitted to the computer by a variety of transmission techniques, including cables adapted to various protocols (e.g., USB, PS/2) or a wireless (infrared or RF) transmitter element in the mouse configured to communicate with a compatible receiver element in the computer.
In addition, while reference is made herein to use of a computer mouse or input device for playing games, it is to be understood that embodiments of the present invention are not limited to any particular use. An input device in accordance with the present invention may be used for controlling other computer programs such as word processing programs, World Wide Web browsers, and any other program capable of responding to the input signals generated by the device. Further, a pistol-like shape is not required; for instance, in some embodiments, a barrel member may be omitted.
Thus, although the invention has been described with respect to specific embodiments, it will be appreciated that the invention is intended to cover all modifications and equivalents within the scope of the following claims.
This application claims the benefit of U.S. Provisional Application No. 60/517,748, filed Nov. 6, 2003, entitled “Pistol Shaped Mouse and Game Controller,” which disclosure is incorporated herein by reference for all purposes. The present disclosure is related to the following four commonly-assigned co-pending U.S. patent applications: application Ser. No. ______ (Attorney Docket No. 022234-000100US), filed of even date herewith, entitled “User Input Device with Vertical Grip and Tracking Sensor Offset”; application Ser. No. ______ (Attorney Docket No. 022234-000200US), filed of even date herewith, entitled “User Input Device with Vertical Grip and Scroll Wheel”; application Ser. No. ______ (Attorney Docket No. 022234-000300US), filed of even date herewith, entitled “User Input Device with Vertical Grip and Single Throw Trigger”; and application Ser. No. ______ (Attorney Docket No. 022234-000400US), filed of even date herewith, entitled “User Input Device with Pistol Grip and Counterweight.” The respective disclosures of these applications are incorporated herein by reference for all purposes.
Number | Date | Country | |
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60517748 | Nov 2003 | US |