Rotary, printed circuit wafer switch and method for adjusting
First Claim
1. In combination, a printed circuit board having an aperture and first and second sides, contact array means defined on at least one of said first and second sides, anda switch comprisinga substantially planar rotor fabricated of nonconductive material having a central aperture and first and second planar surfaces,at least one switch blade mounted upon said first planar surface, anda bushing fabricated of nonconductive material having resilient spring means of a larger cross-sectional area than the cross-sectional area of said aperture in said rotor, whereby upon insertion of said spring means from said first side through said apertures of said board and said rotor and to said second side of said board, respectively, such that said blade abuts said board on said second side, said spring means is deformed such that the frictional force resulting from said fit in said aperture in said rotor is greater than the drag force resulting from movement of said blade along said second side upon rotation of said bushing so that said bushing and said rotor act in concert as one element and on opposite sides of said board.
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Abstract
A wafer switch includes a printed circuit board having etched thereon a common ring and a desired number of contacts having parallel sides at an angle to a radius of the common ring, and includes a rotor. The rotor has mounted on one side a blade that bridges between a contact and the common ring accomplishing a switching function. The switch further includes a spacer ring and a wave washer that establish a bearing distance between the rotor and the printed circuit board. Finally, the improved wafer switch includes a snap-in bushing intended to pass through an aperture in the board and an aperture in the rotor. The aperture in the rotor is smaller in diameter than the bushing so that the bushing is frictionally mounted within the aperture.
32 Citations
16 Claims
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1. In combination, a printed circuit board having an aperture and first and second sides, contact array means defined on at least one of said first and second sides, and
a switch comprising a substantially planar rotor fabricated of nonconductive material having a central aperture and first and second planar surfaces, at least one switch blade mounted upon said first planar surface, and a bushing fabricated of nonconductive material having resilient spring means of a larger cross-sectional area than the cross-sectional area of said aperture in said rotor, whereby upon insertion of said spring means from said first side through said apertures of said board and said rotor and to said second side of said board, respectively, such that said blade abuts said board on said second side, said spring means is deformed such that the frictional force resulting from said fit in said aperture in said rotor is greater than the drag force resulting from movement of said blade along said second side upon rotation of said bushing so that said bushing and said rotor act in concert as one element and on opposite sides of said board.
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7. A wafer switch comprising
a rotor fabricated from nonconductive material having an aperture of a preselected transverse dimension and including at least one resilient switch element, and a bushing having integral spring means, said rotor being adapted to be rotatably mounted on said spring means, said spring means being of a transverse dimension larger than the transverse dimension of said aperture such that upon insertion of said spring means into said aperture the difference in dimensions results in a frictional force resisting movement of said bushing relative to said rotor, said frictional force being greater than a drag force created by said switch element moving over a surface of a member including contact array means for defining a plurality of contacts and mounted on said spring means and between said rotor and said bushing but less than the force by hand or wrench to said rotor thus permitting said rotor to be rotated or adjusted relative to said bushing and said member surface and at the end of said rotation, said bushing and said member again act in concert through the frictional force between them.
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11. In combination
a printed circuit board comprising first and second sides, an aperture and a ring contact concentric with said aperture, and a plurality of contacts on said first side spaced radially from said ring, and alternate contacts being coupled to said ring, each said contact having a configuration wherein the adjacent parallel sides of adjacent contacts lie at a first preselected angle relative to the radius of said ring and a side of each said contact opposite said parallel side lies at a second preselected angle relative to a radius of said ring, a switch comprising a substantially planar rotor having an aperture and first and second sides, at least one switch element mounted on said first side of said rotor perpendicular to a radius of said ring, and a bushing comprising an end portion having first and second sides, integral locking means extending from said first side of said bushing of a larger cross-sectional area than the cross-sectional area of said aperture of said rotor, said rotor being rotatably mounted on said locking means such that said locking means extends through said apertures of said board and said rotor, said rotor being positioned adjacent said contacts and said end portion of said bushing being adjacent said second side of said board, said rotor and said bushing being adapted such that said rotor may be rotated relative to said bushing upon application of a force above a preselected magnitude to said rotor and said rotor and said bushing may be rotated in concert upon application of a rotating force to said bushing, said bushing also including an aperture through said end portion.
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14. A method of continuous adjustment of a multiple position printed circuit board wafer switch, said switch comprising a bushing having an integral locking member and an aperture extending therethrough, and a rotor having an aperture of a larger cross-sectional area than said bushing aperture and including a switch blade mounted thereon, the cross-sectional area of said locking member being larger than the cross-sectional area of said aperture in said rotor wherein said rotor may be adjusted relative to said bushing and said board independent of the position of a shaft extending through said apertures of said board, bushing and rotor and subsequently set in a desired position whereby said rotor and said bushing are integral, the steps comprising
mounting said bushing on a printed board including contact array means for defining at least one contact by passing said locking member through an aperture in said board and through said aperture in said rotor, mounting the assembly of said bushing, board and rotor on a shaft having substantially the same configuration of said aperture in said bushing by extending said shaft through said apertures, securing said board to a support of said shaft, rotating said rotor on said shaft independent of said bushing, board and shaft to a preselected position, and rotating said shaft to rotate said rotor and said bushing as a unit independent of said board.
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16. A method of automatically indicating the station to which a television receiver is tuned comprising the steps of
securing to the body of said receiver and fitting to the shaft of a tuner knob a switch including a printed circuit board having an aperture and contact array means for defining at least one contact, a rotor fabricated of nonconductive material having a central aperture, at least one switch blade mounted upon said rotor, and a bushing fabricated of nonconductive material having resilient spring means of a larger cross-sectional area than the cross-sectional area of said aperture in said rotor, whereby upon insertion of said spring means through said apertures of said board and said rotor, respectively, such that said blade abuts said board, said spring means is deformed such that the frictional force resulting from said fit in said aperture in said rotor is greater than the drag force resulting from movement of said blade along the board upon rotation of said bushing, rotating said knob to a desired position, rotating said rotor to the position on said circuit board corresponding to the position of said knob, securing said rotor to said spring means such that rotation of said knob rotates said bushing and rotor, and connecting said circuit board to output means for recording the position of said blade relative to said board.
Specification
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- Resources
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Current AssigneeACNielsen Corporation (MOOD Media Corporation)
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Original AssigneeACNielsen Corporation (MOOD Media Corporation)
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InventorsMcCarthy, Edwin B., McAnulty, James C.
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Primary Examiner(s)Scott, James R.
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Application NumberUS05/633,503Time in Patent Office615 DaysField of Search200/11 R, 200/11 DA, 200/11 G, 200/11 J, 200/11 K, 200/275, 200/283, 200/292, 200/293-296, 200/257US Class Current200/11.0DACPC Class CodesH01H 19/566 in which the contact making...
