Patent Application
20110032127
Not Applicable
Not Applicable
Not Applicable
This invention relates to low touch-force keyboards, such as computer keyboards, and specifically to a keyboard of substantially fabric, construction or construction from materials with fabric-like properties.
People such as software programmers and writers may spend many hours a day at a computer keyboard. The various over-use injuries that can result from this activity are well-known and a variety of means exist to attempt to ameliorate the problems. Most of the corrective means center around providing cushioning for the wrists and arms, or alternative keyboard layouts that change the geometry of typing. For some individuals these means are effective but for many, alternative keyboard designs negatively impact productivity, and the cushioning available doesn't solve all problems, such as hand and finger fatigue.
For a more general solution than currently available, it is desirable to add to current solutions a significant reduction in hand and finger interaction force with the keyboard, both in terms of push force on keys, and abrasive forces on the fingers. It is the object of this invention to provide a keyboard with very little touch force and very gentle finger-key interaction
The invention is a soft-touch keyboard, made from two sets of flexible conductors arranged in a keyboard 2-axis grid, and a soft substrate. The keyboard uses a soft, flexible spacing layer to separate one grid from another vertically, with the spacers configured to allow contact between the two axes at key locations. Soft, flexible keys are used at the key locations for the particular keyboard type, and electrical connections connect the grid conductors to a keyboard controller.
In particular embodiments conductors are conductive stretchable fabric and the conductors are woven into at least one of an upper and lower fabric layer.
In another embodiment the keys are wrapped in fabric. In another embodiment, the keys are covered by a fabric layer.
In various embodiments, the spacing layer may be composed of individual spacers, longitudinal spacers, a layer with openings above the key contact points, or any combination of these.
The invention will be better understood by referring to the following figures.
The invention is a keyboard whose elements are composed of soft, fabric or fabric-like material in a novel fashion, to achieve ultra-low force, both push and abrasion forces, on hands and fingers.
Fabric keyboards exist and are available commercially. These keyboards are designed to fold or roll, and are intended to act as a case for PDA.'s, smart phones and the like, providing a larger keyboard for the device when rolled out, and convenient storage, as the device case, when not in use. These keyboards are optimized for fold-ability and do not achieve particularly benign hand-finger interaction. The inventor is unaware of the use of fabric to achieve low force/abrasion in keyboard design. In addition, touch-sensitive keyboard also exist, and are also available commercially. However, even though these require no force to activate their keys, they consist of hard, unmoving surfaces. Tapping fingers for extended periods against hard, unyielding surfaces can result in significant injury.
One embodiment of the invention is shown in
Although more layers may be employed, a soft bottom substrate 5 is preferably present. An example bottom layer is a fabric covered foam piece, a little larger than the keyboard dimensions and some fraction of an inch thick. One set of conductors 2 are attached above the substrate. Soft insulating spacers 3 separate the second conductor grid layer 1 from the first grid layer 2. The spacers are disposed such that there is no insulation at the points where the two grids cross. Soft keys 4 are placed above the top grid layer 2. The materials and spacing are chosen such that a very small amount of force are needed to cause the grid conductors to meet under the key when pushed.
The inventor has produced a working prototype of the novel keyboard. Conducting materials with suitable properties for the conductors 1 and 2 in the soft keyboard are not common. The inventor used “Stretch Conductive Fabric”, a conductive fabric similar to lycra, provided by Less EMF Inc. of Albany, N.Y., which is medical grade Silver plated 92% Nylon 8% Dorlastan fabric. A small number of metal infused stretchable fabrics exist as well. The stretchable nature of the materials used is important to provide a tactile response when a key is pushed while maintaining overall low force. For the spacers, the inventor used cotton batting, sold as filler for making quilts. A particular batting, Hobbs Heirloom Premium, is 80% cotton and 20% polyester. The spacer material needs to be soft and a consistent thickness. Most soft batting fabrics are too coarse—the spacing between the fibers is large compared to the dimensions needed. The key pads were also made from this batting material. Soft foam rubber may also be acceptable for spacer, and/or key pads. In the prototype the spacers are strips ⅛″ wide and 6″ long, so consistency was important. However, the inventor has also contemplated using individual spacers placed at appropriate locations, a spacing layer with openings above the key contacts, or any combination of the above.
Again additional layers may be employed for appearance or utility, as long as the conductors can cross with no insulation at the contact points. For instance in the embodiment shown in
An alternative arrangement, representing the working prototype is shown in
A preferred embodiment is shown in
