Integral slide switch

A slide switch (10) comprises a housing (12) having at least one cantilever beam (22 and 23) integrally formed in the housing (12). A keypad (24 and 25) is arranged and constructed below at least one of the cantilever beams (22 and 23). A horizontal slide actuator (30) is arranged and constructed to slide over the cantilever beam (22 and 23) for substantially biasing the cantilever beam (22 and 23) toward the keypad (24 and 25).

TECHNICAL FIELD 
This invention relates generally to switches, and more specifically to an 
integrally formed switch within a housing. 
BACKGROUND 
Membrane switches are commonly used in calculators and portable 
communication products. These products are typically low profile and 
rarely utilize slide switches except for turning on and off the product. 
Slide switches usually fail to provide a seal from the outside 
environment. Furthermore, slide switches on portable products rarely 
provide multifunctional capability. Thus, a need exists for a slide switch 
that could be utilized in a low profile shaped portable product, and yet 
still provides a seal to the outside environment. 
Keypads are typically only axially actuated. When a keypad is used as a 
function key, the function maybe indicated by a display. Accounting for 
the function or functions activated by keypad depressions would be 
difficult without a visual display. A slide switch, on the other hand, 
provides a visual display of the function being used (i.e., on or off) by 
the location slide switch. Thus, a low profile slide switch for activating 
keypads would be desirable. 
SUMMARY OF THE INVENTION 
Briefly, according to the invention, a slide switch comprises a housing 
having at least one cantilever beam integrally formed in the housing. A 
keypad is arranged and constructed below at least one of the cantilever 
beams. A horizontal slide actuator is arranged and constructed to slide 
over the cantilever beam for substantially biasing the cantilever beam 
toward the keypad.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT 
Referring to FIG. 1, there is shown a slide switch 10 having a housing 12 
with a torsion bar 14 and two cantilever beam actuators 22 and 23 formed 
therein, and a keypad 24 and 25 lying below housing 12. The housing 12 is 
preferably made from a resilient plastic allowing for the flexible 
movement of the torsion bar 14 and the cantilever beam actuators 22 and 
23. The torsion bar 14 and cantilever beam actuators 22 and 23 are formed 
within an opening 17 within housing 12. The cantilever beam actuators 22 
and 23 are integrally appendaged to the torsion bar 14, forming a cross 
shape within the opening 17. Additionally, detents 16, 18, and 20 are 
preferably formed at opposing walls within the opening 17 of the housing 
12. 
Referring to FIG. 2, there is shown a bottom side perspective view of a 
slide switch actuator 30 having a horizontal member 33. The slide actuator 
30 preferably has detent protrusions 32 matching the detent indentations 
16, 18, and 20 of housing 12 in FIG. 1. The slide actuator 30 preferably 
includes a pedestal 34 to allow a user to easily move the slide actuator 
30 horizontally. The actuator further includes members 37 and 38 having 
leg members 42 and 44 respectively. The leg members 42 and 44 have 
opposing latch features 43 and 45 respectively that allows the slide 
actuator 30 to couple to the underside of the housing 12, but yet allow 
the slide actuator 30 to slide horizontally within the opening 17 of the 
housing 12. Finally, the slide actuator preferably comprises a protruding 
member 40 that biases the cantilever beam actuators 22 and 23 toward their 
respective keypads when selected. The protruding member 40, as shown, is 
dome shaped, but other shapes that could slide above and bias the 
cantilever beams would be within contemplation of the present invention. 
Referring to FIG. 3, there is shown a cross sectional view of the slide 
switch 10 and the actuator 30 as assembled. The keypads 24 and 25 
preferably lie above the cantilever beams 22 and 23 respectively. The 
keypads 24 and 25 preferably have conductive pads 27 and 26 respectively 
that couple to conductive traces 29 and 28 respectively. The conductive 
traces 28 and 29 are preferably formed on a substrate 31. As shown, the 
slide actuator comprised of a pedestal 34 coupled to a horizontal member 
33 and having a protruding member 40 mounted below horizontal member 33 is 
centrally disposed above the torsion bar 14. Operationally, as the slide 
actuator is moved to the right, the cantilever beam 22 is biased by the 
protruding member 40 towards the keypad 24, causing the conductive pad 27 
to electronically couple to the conductive trace 29. Likewise, as the 
slide actuator is moved to the left, the cantilever beam 23 is biased by 
the protruding member 40 towards the keypad 25, causing the conductive pad 
26 to electronically couple to the conductive trace 28. 
Referring to FIG. 4, there is shown an alternative embodiment 60 of the 
slide switch 10 having opposing cantilever beams 72 and 74 integrally 
formed within a housing 61. The housing 61 similarly includes detent 
features 76, 78, and 80. The cantilever bar also comprises protruding 
members 73 and 75 (not shown in FIG. 4) shown in FIG. 5. Referring to FIG. 
5, there is shown a cross sectional view of the slide switch 60 along with 
a slide actuator having a pedestal 82, a horizontal member 84 and a 
protruding member 86. Below the housing 61 lies the keypad having a 
substrate 90 and keys or popple-type switches 92 and 94. The slide 
actuator (as shown) resides centrally in a normal or off position. As the 
slide actuator is shifted to the right, up the ramp-like feature on the 
cantilever beam 74, the protruding member 86 depresses the cantilever beam 
74 and its protruding member 75 towards the popple switch 94. Likewise, as 
the slide actuator is shifted to the left on the cantilever beam 72, the 
protruding member 86 depresses the cantilever beam 72 and its protruding 
member 73 towards the popple switch 92. 
Referring to FIG. 6, there is shown an alternative embodiment 100 of the 
slide switch 10 having opposing adjacent cantilever beams 102 and 104 
integrally formed within a housing 101. The housing 101 similarly includes 
detent features 106, 108, and 110. The cantilever beams 102 and 104 also 
comprises protruding members 103 and 105 respectively shown in FIGS. 6 and 
7. Referring to FIG. 7, there is shown a cross sectional view of the slide 
switch 100 along line 7--7, along with a slide actuator having a pedestal 
118, a horizontal member 116 and a protruding member 120. Below the 
housing 101 lies the keypad having a substrate 114 and a popple switch 
112. The slide actuator (as shown) resides in either the extreme right or 
left in a normal or off position. As shown, as the slide actuator is 
shifted to the right, up the ramp-like feature on the cantilever beam 102, 
the protruding member 120 depresses the cantilever beam 102 and its 
protruding member 103 towards the popple switch 112. 
Referring to FIG. 8, there is shown another alternative embodiment of the 
present invention similar to the embodiment of FIGS. 6 and 7. This slide 
switch 200 comprises a housing 201 having an opening 214 and cantilever 
beams 202 and 204. Additionally, torsion bars 206 and 208 are formed at 
opposing ends of the cantilever beams 202 and 204 to allow for further 
flexibility and resiliency. Torsion bars 206 and 208 are formed by 
providing apertures 210 and 212 at opposing ends of the cantilever beams. 
The integral slide switch 200 of FIG. 8 functions substantially the same 
as the integral slide switch 100 of FIG. 6 with the exception of the 
twisting or rotating motion of the torsion bars 206 and 208 as the slide 
actuator (not shown) shifts from left to right.