Normally open extended travel dual tact switch assembly with...

Electricity: circuit makers and breakers – Multiple circuit control – Sequential operations

Reexamination Certificate

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C200S0050EA, C200S018000, C200S406000, C200S516000, C200S517000

Reexamination Certificate

active

06271487

ABSTRACT:

BACKGROUND OF THE INVENTION
1. Field of the Invention
This disclosure relates generally to electrical switches and in particular to a more reliable, extended travel, dome-type pushbutton switch having tactile feedback and three states of switching.
2. Description of Related Art
Tactile feedback, push button switches are well known in the art, but for certain applications the life of the switch is not as long as may be desired or necessary. Often in dome switches, the top dome gets very stressed and the switch looses its tactile feel or fails. Also, the limited movement of the activating pushbutton in three-state switches minimizes the feel of the center position.
In U.S. Pat. No. 5,172,114 issued Dec. 15, 1992 to Claude Bedoya and assigned to Sextant Avionique of France, a tactile effect switch used in a keyboard is disclosed. The tactile effect is obtained by combining a snap acting switch and the deformation of an elastomer stud, axially deformable under compression, which is integrally formed on a membrane made from a resilient material disposed on a support plate and which provides a resilient connection between a key and the switch in the manner of a pusher. A resilient blade is deformed when pressure is applied to the stud causing actuation of the switch as the blade makes contact between an inner contact and two outer contacts.
In U.S. Pat. No. 5,228,561 issued Jul. 20, 1993 to Christopher K. Schroeder et al. and assigned to Hewlett-Packard Company of Palo Alto, Calif., a long traveling pushbutton switch with enhanced user tactile feedback is disclosed. The switch comprises a keycap, a keycap plunger, a retaining bezel, an elastomeric dome switch button formed in an elastomeric sheet comprising rubber which rests on a printed circuit board having a conductive pattern. Deformation of the button switch provides tactile feedback, while impact of the keycap top against the retaining bezel provides audible feedback. The pushbutton switch is configured to limit the downward displacement of the keycap plunger to avoid excessive force on the printed circuit board.
In U.S. Pat. No. 5,199,557 issued Apr. 6, 1993 to Gert Brandt et al. and assigned to MEC A/S of Ballerup, Denmark, a key is disclosed comprising a domed metal disc with its dome facing upward, a rubber component arranged on top of the domed metal disc which comprises a membrane part and a stem part. The stem part is a hollow part, which is elastically deformable and serves the purpose of transmitting a mechanical force from a button to which the mechanical force is applied to the domed metal disc, as the metal disc is deformed or allowed to revert to its normally domed shape from its deformed shape by the elastic deformation of the stem. The key has only two states whereby the metal dome makes contact with a central contact pad when the mechanical force is applied to the button (state
1
) and brakes contact when the force is removed (state
2
).
In U.S. Pat. No. 5,345,051, issued Sep. 6, 1994 to Teruhisa Miike and assigned to Alps Electric Company, Ltd., of Tokyo, Japan, a pushbutton switch is disclosed which has a comparatively small height and minimal rattling of a stem upon movement. The pushbutton switch comprises an insulating case, a pair of fixed contacts on the inner bottom of the case, a moveable contact for movement toward and away from the fixed contacts a stem for operating the movable contact and being resiliently biased away from the fixed contacts, the stem having a flat plate and four legs, a click rubber element positioned below the flat plate of the stem, and guide holes formed at the four corners of the insulating case. Thus when the flat plate of the stem is depressed, the top of the click rubber element is pushed down to resiliently deform the click rubber element until the movable contact contacts the fixed contact on the inner bottom face of insulating case to short-circuit the fixed contacts. When the stem is released, the click rubber element pushes up the stem by its own resilient returning force. This switch has only two states.
In U.S. Pat. No. 5,898,147, issued Apr. 27, 1999 to Frank M. Domzalski et al., and assigned to C & K Components, Inc., of Watertown, Mass., a dual action 3 state, convex disc pushbutton switch assembly is described which provided tactile feedback to the operator. Each convex disc contact comprises four tabs, each tab of which is fitted and secured in the base of the switch assembly making the switch easy to assemble and operate reliably. The tabs of a first convex disc contact are positioned forty-five degrees relative to the tabs of a second convex disc contact. The switch is sealed thereby permitting various ways to secure the switch terminals to an electronic board. However, the top disc experiences considerable stress during its operational usage and can loose its tactile feel or fail.
SUMMARY OF THE INVENTION
Accordingly, it is therefore an object of this invention to provide a three-state, tactile feedback pushbutton switch having an upper elastomeric dome with a conductive coated bottom surface contacting a lower metal dome for increased switch reliability.
It is a further object of this invention to provide a three-state, tactile feedback, pushbutton switch having extended travel for improved feel of an intermediate switch state.
It is another object of this invention to provide a semicircular conductor positioned below the elastomeric dome for making electrical contact with the metal dome.
It is another object of this invention to provide a circular conductor positioned below the elastomeric dome having opposite inwardly extending radial tabs for making electrical contact with the lower metal dome.
It is a further object of this invention to provide an alternate embodiment of the three-state tactile feedback, pushbutton switch comprising an extruded elastomeric switch element with a conductive bottom surface for improved reliability and lower cost.
These and other objects are accomplished by a tactile feedback pushbutton switch comprising an insulated housing having an inner bottom surface and a plurality of walls, a conductive contact provided on approximately the center of the inner bottom surface of the housing, an elastomeric dome disposed in the insulated housing having a conductive means attached to a bottom surface of the dome for making an electrical contact when the pushbutton is activated, a switching element, disposed between the conductive contact and the conductive means of said elastomeric dome, having a first state of no electrical contact, having a second state of making electrical contact with the conductive means of the elastomeric dome, and having a third state of the conductive means electrically contacting the switching element which contacts the conductive contact, as a pushbutton is being pressed in a direction toward the bottom surface of the housing, the pushbutton, disposed above the rubber dome, comprises a plurality of legs, for limiting the travel of the pushbutton within the housing, a collar disposed around the elastomeric dome having an opening for a top portion of the dome to extend therethrough, and a frame having an opening for the pushbutton to extend therethrough, the frame comprises at least a pair of sides which snap over tabs on the outside of the housing. The switch comprises at least three external terminals for connecting the switch in a circuit. The conductive means on the bottom of the elastomeric dome comprises a conductive coating. Alternate embodiments of the conductive means include a semicircular conductor, or the conductive means may include a circular conductor with two opposite inwardly extending tabs. The switching element comprises a metal dome.
The objects are further accomplished by a method of providing an extended travel tactile feedback pushbutton switch comprising the steps of providing an insulated housing having an inner bottom surface and a plurality of walls, providing a conductive contact on approximately the center of the inner bottom surface of the housing, disposing an elastomeric dome in

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