Tactile keyboard for electrical appliances and equipment

Electricity: circuit makers and breakers – Solid contact – Membrane type

Reexamination Certificate

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Details

C200S0050EA

Reexamination Certificate

active

06750414

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This invention relates to a soft tactile urethane plastic membrane structure printed keyboard for use on data control and recording devices such as data control and data insertion terminals for appliances, security equipment, communication equipment, computers and like equipment wherein manual keyed Inputs are used. The keyboard is adaptible to use of conventional electrical matrix control of electrical devices.
This invention accordingly relates to the control of electrical equipment and appliances and, more particularly, to an improved tactile keyboard.
Keyboards and keypads have long been used to provide codes and data for the operation of numerous kinds of electrical equipment and appliances used by individuals in travel, in the household, and in industry. The first keypads were often depressible keys to transmit codes and data to equipment and appliances for purposes of operation, transmitting information, and utilitarian tasks. In recent years depressible membranes have served in keypad applications but several deficiencies are present in designs frequently used. Often, presently available keyboards are expensive to manufacture and fail to provide an optimum lifetime of service, including keyboards of injection molded keys.
As an additional problem in current keyboards, some individual key positions in the key array of current keyboards are not characterized by suitable delineation to cause positive tactile finger positioning to the user which is advantageous to the individual operating the device. This is particularly a problem where a tactile differential between individual keys is not present because surface indication of the key being depressed is not present. Such problems arise because of the lack of three-dimensional tactile differential being present for the user.
Further, current keyboards can require relatively expensive and uneconomical steps of fabrication in that many plastic layers are utilized in one keyboard product. Also, the limit of service of a membrane switch can be limited in a membrane switch activated a few thousand times. Therefore, it Is desirable to provide a keyboard having optimum three-dimensional domed shape keys having improved feel, visual distinctiveness, with economy of manufacture and improved service capability.
2. Description of the Prior Art
Data terminal devices are used in retail establishments such as restaurants, wherein individual food servings are tabulated and charged per item before being served, in supermarkets or in fast food establishments which require fast checkout operations, and in similar business operations wherein emphasis is on fast manual checkout service to serve the customer quickly, yet with accurate recording of the details of the service provided. The required speed of recording each transaction has been facilitated by the use of tactile keyboards wherein the keyboard operator records each transaction by feel of the keyboard to depress keyboard keys by touch typing or touch sensation. Because many keyboards have relatively flat contact surfaces which indicate positions of keys or contacts, recording errors can arise or the operator needs to observe the position of the desired key or contact before depressing the contact surface, thus decreasing the speed of the operation.
In the prior art, a number of patents discuss the problem of providing keyboards for terminal services wherein the keyboard provided comprises a membrane or jacket cover member with raised proturbances or bubbles, or with raised key tip portions to facilitate the operator's tactile response to keyboard key positions by touch typing or touch sensation.
U.S. Pat. No. 3,995,126, to Larson, teaches a membrane keyboard apparatus wherein the membrane comprises a flat non-conductive sheet such as Mylar plastic film having an array of dome-shaped deflectible bubble members containing air, being selectively deformable to form a conductive path between electrodes with air tunnel means to allow air to escape from deflected individual bubble members and distribute the air to remaining bubble members from the deflected bubble members of the Mylar plastic sheet. Air tunnels are taught as particularly desirable when a sealed type keyboard apparatus is used. The keyboard apparatus comprises several layers consisting of a layer of a plastic molding or bezel member having a plurality of apertures exposing individual switching units, a bridging layer of a conductive metal material such as metallic foil, and an insulator layer consisting of an insulating member covering electrical leads from individual switching units. The Larson membrane keyboard apparatus accordingly comprises an insulator having a conductive sheet with a plurality of electrode members in apertures in a deflectible membrane sheet with resilient air filled plastic sheet formed bubbles actuable by touch. The insulator comprises several layers of non-conducting film sheets and conducting sheets with electrode members to provide a switching apparatus actuable by touch. Larson '126 teaches that previous keyboard switches using air filled bubble members are subject to multiple switch closure when the air within the bubble is compressed and causes switch closure before the bubble member contacts to close the switch. The air escape of Larson '126 prevents multiple switch closure.
U.S. Pat. No. 4,066,850, to Heys teaches a keyboard switch assembly comprising a transparent plastic material of raised portions simulating key tips formed in any well known manner such as molding. The assembly comprises a waterproof jacket of a cover member, a key tip sheet, an indicia sheet, a projection sheet of a plurality of depending projections oriented with associated key tips to produce pressure points on the key tip portion and a matrix switch unit thereby. Plastic materials such as polyvinylchloride, polyethylene, and other plastics are used. The keyboard assembly comprises a waterproof printed circuit matrix unit and a waterproof jacket as a data terminal device that will operate under conditions where liquids and food may be spilled on the keyboard. Transparent plastic materials provide visual access to indicia on the keyboard.
U.S. Pat. No. 4,194,097 to Bradam teaches a membrane keyboard apparatus with tactile feedback comprising a printed circuit keyboard including a cover sheet of insulating material of a flexible plastic having a plurality of spherical proturbances or bubble portions formed in any well-known manner such as molding. The cover sheet is of resilient material such that after depression the bubble portions will spring back to their raised portion. Each bubble may have printed on its upper surface an indicia representing the key designation as is conventional. Secured to the lower surface of each bubble is a flexible electrical conductor. An insulator spacer sheet is positioned adjacent the cover sheet having a plurality of apertures in register with each bubble of the cover sheet. Adjacent the spacer sheet is a flexible support sheet having bubble portions in register with apertures in the insulator spacer sheet and associated bubbles in the cover sheet. The above sheets are mounted upon a printed circuit board wherein the printed circuit board has a plurality of recessed portions in registration with the bubble portions of the above sheets. In operation, depression of a selection bubble in the cover sheet makes electrical contact with electrical conductors in the flexible support sheet. The tactile feedback to the operator permits the operator to learn the location of each bubble portion and to operate the keyboard without looking at the keyboard.
U.S. Pat. No. 6,039,390 to Agrawal discloses a chromogenic window panel assembly and a chromogenic light pipe devices. The chromogenic light pipe has a light harvesting member to harness exterior light on a building and direct the light to the interior of the building. The main element of the light pipe is a circular tube that extends through the roof of the building and the tube en

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