KEYBOARD WITH KEYS FOR MOVING CURSOR
Various embodiments of the present invention comprise a signal generator for sending an electrical signal from an expandable, flexible layer of material, the signal generator comprising an upper layer of flexible, resilient material and a lower layer of flexible, resilient material which between them define a cavity for enclosing an expandable material such as a cellular foam or gas, whereupon localized distortion of one of the layers of flexible material, effects a signal generation within the structure, which is transmissible through a proper circuit to an outside electrical device. A circuit may be arranged adjacent a plurality of said keys which senses when several of said keys are depressed in a skewed or sideways manner, so as to effect movement of a cursor or pointer on a monitor in communication with a processing unit and said keyboard.
This application is a continuation of U.S. patent application Ser. No. 11/005,168, filed Dec. 6, 2004, which is a continuation of U.S. patent application Ser. No. 10/011,241, filed Nov. 5, 2001, now abandoned, which was a divisional of U.S. patent application Ser. No. 09/549,080, filed Apr. 15, 2000, now U.S. Pat. No. 6,313,762, which is a continuation of U.S. patent application Ser. No. 08/974,356, filed Nov. 19, 1997, now U.S. Pat. No. 6,052,071, which is a divisional of U.S. patent application Ser. No. 08/564,631, filed Nov. 29, 1995, now U.S. Pat. No. 5,691,716, which is a continuation-in-part of U.S. patent application Ser. No. 08/447,116, filed Aug. 18, 1995, now U.S. Pat. No. 5,666,112, which is a continuation of U.S. patent application Ser. No. 08/098,851, filed Jul. 29, 1993, now U.S. Pat. No. 5,459,461. The aforementioned applications and patents are all hereby incorporated by reference in their entirety.
TECHNICAL FIELDThis invention relates to keyboards, and more particularly, to signal generating devices which have keys adapted for moving a cursor by themselves in addition to permitting other data input.
BACKGROUND OF THE INVENTIONMiniaturization of electronic devices such as calculators, computers, telephones, amusement devices, and light electronic equipment has advanced rapidly over the past few years. Data entry devices have become miniaturized as well. The term “chicklet keys” has been used to identify very small tabs or keys utilized on some small devices for data entry into that device. While their keypads are somewhat “storable”, the problem with that type of terminal is that the operator has a difficult time in hitting the proper key to efficiently do the job. The data entry operators hands/fingers are relatively large, and these keys lack the full stroke, size and tactile contact feedback of full sized keyboards that are preferred. Current laptop and palmtop devices suffer from the problem of short stroke and compacted dense key layout. Further difficulties arise when cursor movement is desired. Touch pad screens are data entry devices which have replaced the “mouse” or trackball. Accuracy, however, may be lacking with such data entry devices, inasmuch as the exact location of a particular cursor/data entry point may be difficult to discern. One patent which has tried to show an improvement in the cursor moving art is U.S. Pat. No. 5,278,557 to Stokes et al. This patent, however, discloses only a single key which is dedicated exclusively to the movement of a cursor. This is similar to a joy stick “built-into” the keyboard. This does not facilitate cursor movement while the operator's hands are on the alpha/numeric keys themselves.
BRIEF SUMMARY OF THE INVENTIONAspects of the present invention comprise a signal generator arrangement for sending an electrical signal from an input stroke, the signal generator being defined by an upper layer of flexible, resilient, plastic-like material having an inner surface into which a fluid component is pressed thereagainst, and a signal completion means arranged within the fluid component, so as to establish an electrical signal to be sent in a proper circuit when the upper layer of flexible, resilient plastic material is deformed, or pressed by the input stroke. The fluid component adjacent the upper layer of flexible, resilient plastic material may be an expandable open or closed cellular foam material. The foam material may include a conductivity additive therewithin, which conductivity within the foam increases as the foam is compressed beyond a lower limit so as to establish a signal from that vicinity of the flexible, resilient plastic material of the upper layer.
A lower layer of flexible material may be disposed adjacent to the upper layer of flexible material, so as to define a resilient cavity or foam filled chamber therebetween. The upper layer of flexible plastic material may have a plurality of molded structures formed thereon, the molded structures enclosing at least a portion of the fluid or foam filled component thereby. An arrangement of electrodes may be arranged on or adjacent the inner side of the upper layer of flexible material, the electrodes being in electrical communication with a proper circuit through at least one of the layers of flexible material, and in communication with a further electrical device.
The cavity defined by the upper and lower layers of flexible, resilient plastic material may be filled with a gas through a valve arranged between one of the layers. The signal completion arrangement may include an arrangement of strain gauges arranged adjacent the inner surface of the upper resilient, flexible layer of material.
One aspect of the invention thus comprises a signal generator for sending an electrical signal from an input stroke, comprising an upper layer of flexible, resilient plastic material having an inner surface, a fluid component pressing against the inner surface, and signal completion means arranged within the component pressing against the inner surface of the upper layer, so as to establish an electrical signal to be sent to an electrical device from the signal generator upon the receipt of a force input stroke thereon. The fluid component may in one embodiment, comprise an expandable cellular foam. The signal completion means may comprise a conductivity additive in the cellular foam. The signal generator may include a lower layer of flexible material having a periphery attached to the periphery of the upper layer, to define a fillable cavity therebetween. The upper layer has a plurality of molded structures molded therewith, the molded structures enclosing the fluid component means, and an arrangement of electrodes arranged adjacent the inner side of said upper layer, the electrodes being in electrical communication with a circuit through at least one of the layers of flexible material. A fluid controlling valve is arranged through at least one of the layers of flexible material, to permit entry of gas to the fillable cavity between the upper and lower layers of flexible material. The signal completion means in one embodiment, may comprise a strain gauge arranged adjacent the inner surface of the upper layer. The signal completion means also may comprise a plurality of layers of cellular foam, each layer having a different physical characteristic therewithin. The signal completion means may also comprise a plurality of spot electrodes arranged adjacent the inner surface of the upper layer, so as to establish a complete circuit during localized distortion of the upper layer.
Another aspect of the invention comprises a signal generator for sending information to a computer monitor to effect proportional directional movement of a pointer or cursor on that monitor, comprising a plurality of the regular alpha-numeric depressible keys on the signal generator for the sending of electrical signals to the monitor through an electrical circuit, and a further electrical circuit arranged between each of said plurality of depressible keys and the signal generator, to effect motion in a cursor on the monitor, when the plurality of keys are depressed somewhat sideways or skewedly. The further electrical circuit in one embodiment, comprises a multiplicity of electrical components spaced adjacent the periphery of each of the plurality of depressible keys, each of the spaced components connected in parallel to correspondingly positioned components spaced about the other of the depressible keys, and connected to a processing unit for input to said monitor. The electrical components may comprise resistors which are variable in nature such as potentiometers, strain gages, or conductors in communication with the compressible foam (variable conductivity depending on the amount of conductors therein, and the amount of compression applied thereto), comprising part of a secondary contact point to receive signals when any of the keys are depressed or moved in a skewed or sideways direction. The signal generator may have an upper surface comprised of a layer of flexible plastic material, and the plurality of depressible keys may also formed of that flexible plastic material. A plurality of primary contact points are disposed on the lower surface of the layer of flexible material juxtaposed with respect to the secondary contact points to permit electrical communication therebetween when any of the plurality of keys are moved in a skewed manner, or pressed with an increased force to create a greater conductivity to get such cursor to move faster.
Another aspect of the invention comprises a method of generating an electrical signal in order to effect proportional movement of a cursor on a computer monitor, comprising the steps of arranging a plurality of movable (depressible) keys on a keyboard so that when any of the keys (preferably standard alpha/numeric keys) are moved, an electrical signal is sent through a first electrical circuit to a processing unit and to a monitor for display of that signal thereon, and arranging a further electrical circuit in a spaced relationship with respect to the keys, so as to send a further electrical signal to the monitor to move a cursor in a particular direction when a plurality of the keys are moved with a sideways component of motion (skewed manner). The method of generating an electrical signal includes pressing simultaneously, more than one of the plurality of depressible keys in a common skewed direction, to effect movement of the cursor or pointer on the monitor in a corresponding direction. The method of generating an electrical signal also comprises the step of increasing the force/speed of the skewed moving or increasing the number of keys simultaneously pressed in a skewed manner, to effect an increase in the speed of movement of the cursor or pointer.
Still another aspect of the invention includes a method of generating an electrical signal from a keyboard in order to effect movement of a cursor on a monitor, comprising the steps of: moving sideways a plurality of keys arranged on the keyboard so as to send a signal from a sideways motion sensor arranged with respect to each of the plurality of keys, to the monitor, to induce cursor motion in the monitor; arranging as the sideway motion sensors, a plurality of resistors about each of the plurality of keys; connecting in parallel, corresponding resistors from each of the plurality of keys, the parallel resistors arranged as a circuit connected to the processing unit, so as to establish a circuit for sending a proportionally increasing signal to the monitor, when an increasing number of keys are moved in a corresponding sideways direction. The method includes the step of arranging as the sideways motion sensors, a plurality of strain gages between the plurality of keys and the keyboard, the strain gages connected to the monitor through a processing unit, so as to establish a circuit for sending a proportional changing signal to the monitor depending on the quantity of keys moved sideways, to effect movement of the cursor or pointer. The method also includes the steps of: fabricating the upper surface of the keyboard from a layer of flexible plastic sheet material; molding the keys into a digit depressible form as a unitary component of the flexible plastic sheet material; arranging a lower layer of material as a base of the keyboard which is sealed at a common periphery with the layer of flexible plastic material comprising the upper layer; injecting a charge of compressible foam into a cavity defined between the upper layer of flexible plastic sheet material and the lower layer of material; placing a dispersion of electrically conductive particles within the foam, so as to permit portions of the foam to be electrically conductive when the particles are compacted against one another, increasing their conductivity to establish a completed circuit therein as the foam is compressed; and arranging a plurality of contacts adjacent the periphery of the lower surface of each of the plurality of keys, the contacts being part of a circuit connected to a processing unit to effect movement in a cursor or pointer on the monitor when a key is pressed sideways. The method includes the steps of: pressing downwardly towards the base of the keyboard at least one of the plurality of keys so as to send an electrical signal to the processing unit to generate an alpha/numeric response on the monitor; and moving sideways with respect to the base of the keyboard at least two of the plurality of keys so as to send an electrical signal to the processing unit to effect a corresponding movement in a cursor or pointer on the monitor; and decompressing the foam so as to separate any compacted conductive particles, to open any circuit established therein, to await further compression and establishment of another circuit therein for transmission of a signal to the processing unit and monitor.
The objects and advantages of the various embodiments of the present invention will become more apparent when viewed in conjunction with the following drawings, in which:
One embodiment of the present invention relates to an expandable signal generator apparatus 58, as shown in a partial side-elevational view, in
The signal generator shown in
Conductive strips are also shown in
In a further embodiment, thin trace metallic conductors 84 may be disposed within the foam 86, adjacent voids 88 therein, which conductors are then in contact when the key 60 is pressed or distorted by an outside force to create an electrical signal path therewithin, as shown in
These expandable key signal generators 58 may be stored in a collapsed or rolled up configuration, as shown in
A further aspect of one embodiment of the present invention also involves the sideways (skewed) directed force or eccentric bias typically provided to a standard alpha/numeric key when a keyboard operator presses that particular key on a keyboard. If that one key were able to move the position of the cursor on a monitor, such cursor movement would be haphazard and random when that particular key was depressed. However, if all or most of the regular alpha/numeric keys on a keyboard were made directionally sensitive through a circuit arrangement associated with each key, and when more than one such key was depressed in a skewed manner, then a computer keyboard operator could effect cursor positioning by the laying of two or more of his/her fingers on the top of the “regular” keys and skewedly depressing a plurality of those keys. This effects a summation of a plurality of resistances created when a plurality of those regular keys are moved with a sideways direction/component of motion, as shown by the arrows labeled “R-L”, as shown in
Thus a computer operator may effect cursor positioning on the monitor 82, (in addition to the standard data generated when a key 160 is pressed in the “usual” way, which may include being mounted on a support post 162, and connected to its own circuit 164), by skewedly pressing a each of a plurality of keys 160 in a generally common direction, to effectuate simultaneous energization of corresponding components (R1 for each key 160, or R2 for each key 160 etc.) to effect cursor motion in a desired direction on the monitor 82. Multiple resistance in a parallel scheme shown in
Thus what has been shown in a preferred embodiment, is a signal generating device which may be unfurled or expanded from a compressed configuration into a flexible functional orientation. The device may utilize compressible or distortable keys which are maintained in an erect state by an expanded fluid or foam material swelled therewithin. The device may also be able to provide pointing, or cursor movement on a monitor, merely by the skewed pressing of a plurality of keys on a keyboard, which is particularly useful on lightweight portable keyboards, where simplicity, convenience and storability are desired. Such cursor movement may also be accomplished by adapting alpha/numeric keys of a standard keyboard with the secondary circuit according to one embodiment of the present invention so provide an indication when such keys are being given a sideways directed force. The additive secondary circuit is arranged so as to sense a tilted or sideways biased force against a plurality of keys to direct a signal to the central processing unit, to move a cursor or pointer in a connected monitor. There is no need for a “mouse”, joy-stick, roller-ball or other contrivance to get in the way of keeping an operator's hands on the keyboard. Such an arrangement for cursor movement may also be employed in a conventional “rigid” or hard keyboard, either by placing sensors such as strain gages under the keycaps which define the conventional keys, or on the keyposts which support the keycaps on conventional keyboards, with similar effectiveness for providing electrical signals for the proportional directional movement of cursors, provided that sufficient sideways motion is permitted by the conventional key/key support mechanism.
Claims
1-16. (canceled)
17. A signal generating keyboard having a plurality of depressible key members on said signal generating keyboard, each of said key members arranged for the generation of a particular electrical signal, at least one of said depressible key members comprising:
- an upper keytop surface of said key member; and
- a circumferential wall portion of said key member, wherein said key member has a pressure producing medium disposed therewithin to effect an erect pre-depressed state of said key member, wherein at least one of said key members has a signal generating arrangement disposed within said at least one key member and said circumferential wall portion of said key member is flexible.
18. The signal generating keyboard as recited in claim 17, wherein said signal generating keyboard is comprised of a plurality of sheets of flexible material.
19. The signal generating keyboard as recited in claim 17, wherein said keytop surface is of less flexibility than said flexible circumferential wall portion of said key member.
20. The signal generating keyboard as recited in claim 17, wherein at least one of said key members has a signal generating arrangement disposed within said at least one key member.
21. The signal generating keyboard as recited in claim 17, wherein said key member is arranged to provide a tactile response to a depression of said upper keytop surface.
22. The signal generating keyboard as recited in claim 17, wherein said circumferential wall portion of said key member is arranged to flex when said keytop is depressed.
23. The signal generating keyboard as recited in claim 17, wherein said key member has a pressure producing medium disposed therewithin to effect an erect pre-depressed state of said key member.
24. The signal generating keyboard as recited in claim 23, wherein said pressure producing medium is selected from the group comprising: a liquid, a gas and a foam.
25. The signal generating keyboard as recited in claim 23, wherein said pressure producing medium disposed within said key member is pressurizably adjustable to effect a controlled adjustment of said key member.
26. The signal generating keyboard as recited in claim 25, wherein said controlled adjustment of said key member comprises tactile adjustment of said key member.
27. The signal generating keyboard as recited in claim 25, wherein said controlled adjustment of said key member comprises a heightwise adjustment of said key member.
28. The signal generating keyboard as recited in claim 18, wherein said keyboard is rollable into a compressed tight configuration.
29. The signal generating keyboard as recited in claim 17, wherein said keyboard has a solar collector thereon to provide electrical power to said keyboard.
30. The signal generating keyboard as recited in claim 20, wherein said signal generating arrangement comprises a loudspeaker.
31. The signal generating keyboard as recited in claim 20, wherein said signal generating arrangement comprises a microphone.
32. The signal generating keyboard as recited in claim 20, wherein said signal generating member is comprised of a piezoelectric material.
33. The signal generating keyboard as recited in claim 17, wherein said keytop surface of said key member is rigid.
34. The signal generating keyboard as recited in claim 20, wherein said signal generating arrangement is attached to an inner surface portion of said at least one key member.
Type: Application
Filed: Sep 4, 2008
Publication Date: Jan 1, 2009
Applicant: Research Transfer Enterprise, L.L.C. (Wilmington, DE)
Inventors: Robert J. Crowley (Sudbury, MA), Donald N. Halgren (Manchester, MA)
Application Number: 12/204,767
International Classification: G06F 3/023 (20060101); H01H 13/70 (20060101); H03K 17/94 (20060101);