One-sided electrode arrangement on an intermediate spacer for a touchscreen
First Claim
1. A method of forming a membrane switch, comprising:
- (a) providing a first substrate having a first electrically conductive surface;
(b) providing a flexible second substrate having a second electrically conductive surface;
(c) providing an intermediate spacer defining a central aperture, the second substrate being depressible through the central aperture of the intermediate spacer to contact the first substrate, providing the intermediate spacer comprising;
(i) providing a dielectric third substrate including third and fourth surfaces, (ii) applying at least one first electrode including at least one first contact portion on the fourth surface of the third substrate, (iii) applying at least one second electrode including at least one second contact portion on the fourth surface, (iv) applying a first adhesive layer to the third surface of the third substrate, (v) applying a second adhesive layer to the fourth surface of the third substrate, the second adhesive layer defining at least one first aperture adapted to overlie the at least one first contact portion of the at least one first electrode on the fourth surface, the second adhesive layer further defining at least one second aperture adapted to overlie the at least one second contact portion of the at least one second electrode on the fourth surface, (vi) defining at least one hole extending through the at least one first contact portion of the at least one first electrode between the third substrate and the first adhesive layer, the hole having a cross-sectional area that is smaller than that of the first contact portion, (vii) pouring conductive epoxy material into the first aperture and the hole, the conductive epoxy providing an electrical conduction path between the first contact portion and the first adhesive layer, and (viii) pouring conductive epoxy material into the second aperture defined through the second adhesive layer to overlie the second contact portion, the conductive epoxy providing an electrical conduction path between the second contact portion and the second adhesive layer; and
(d) securing the intermediate spacer between the first surface of the first substrate and the second surface of the second substrate, the first adhesive layer of the intermediate spacer being associated with the first conductive surface of the first substrate to maintain the first electrode in electrical contact with the first conductive surface, and the second adhesive layer of the intermediate spacer being associated with the second conductive surface of the second substrate to maintain the second electrode in electrical contact with the second conductive surface.
1 Assignment
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Accused Products
Abstract
A membrane switch (10) is disclosed having a bottom membrane (12) with an upper conductive surface (16), a top membrane (14) with a lower conductive surface (18), and an intermediate spacer (20) disposed therebetween. The intermediate spacer includes a central aperture (24) and is formed of an intermediate substrate (21) having a lower surface (26) and an upper surface (28). First y-axis electrodes (30A, 30B) including first contact portions (31A, 31B) and second x-axis electrodes (34A, 34B) including second contact portions (38A, 38B) are both formed on the upper surface of the intermediate substrate. The intermediate spacer further includes an upper adhesive layer (45) including predefined first apertures (50) adapted to overlie the first contact portions of the y-axis electrodes and predefined second apertures (47) adapted to overlie the second contact portions of the x-axis electrodes, and a lower adhesive layer (43). Preferably after the intermediate spacer is assembled, at least one hole (39) is defined through each of the first contact portions, extending through the intermediate substrate and the lower adhesive layer. Then conductive epoxy material (41) is poured into the first aperture and the hole so as to provide an electrical conduction path between the first contact portion of the y-axis electrode and the lower adhesive layer. Similarly, conductive epoxy material is poured into the second aperture predefined through the upper adhesive layer so as to provide an electrical conduction path between the second contact portion of the x-axis electrode and the upper adhesive layer. When the intermediate spacer thus constructed is secured between the bottom and top membranes, the y-axis and x-axis electrodes are in electrical contact with the bottom and top membranes, respectively.
117 Citations
14 Claims
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1. A method of forming a membrane switch, comprising:
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(a) providing a first substrate having a first electrically conductive surface;
(b) providing a flexible second substrate having a second electrically conductive surface;
(c) providing an intermediate spacer defining a central aperture, the second substrate being depressible through the central aperture of the intermediate spacer to contact the first substrate, providing the intermediate spacer comprising;
(i) providing a dielectric third substrate including third and fourth surfaces, (ii) applying at least one first electrode including at least one first contact portion on the fourth surface of the third substrate, (iii) applying at least one second electrode including at least one second contact portion on the fourth surface, (iv) applying a first adhesive layer to the third surface of the third substrate, (v) applying a second adhesive layer to the fourth surface of the third substrate, the second adhesive layer defining at least one first aperture adapted to overlie the at least one first contact portion of the at least one first electrode on the fourth surface, the second adhesive layer further defining at least one second aperture adapted to overlie the at least one second contact portion of the at least one second electrode on the fourth surface, (vi) defining at least one hole extending through the at least one first contact portion of the at least one first electrode between the third substrate and the first adhesive layer, the hole having a cross-sectional area that is smaller than that of the first contact portion, (vii) pouring conductive epoxy material into the first aperture and the hole, the conductive epoxy providing an electrical conduction path between the first contact portion and the first adhesive layer, and (viii) pouring conductive epoxy material into the second aperture defined through the second adhesive layer to overlie the second contact portion, the conductive epoxy providing an electrical conduction path between the second contact portion and the second adhesive layer; and
(d) securing the intermediate spacer between the first surface of the first substrate and the second surface of the second substrate, the first adhesive layer of the intermediate spacer being associated with the first conductive surface of the first substrate to maintain the first electrode in electrical contact with the first conductive surface, and the second adhesive layer of the intermediate spacer being associated with the second conductive surface of the second substrate to maintain the second electrode in electrical contact with the second conductive surface. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
the first electrically conductive surface of the first substrate includes a first set of parallel edges and a second set of parallel edges that are orthogonal to the first set of parallel edges, at least one of the first set of parallel edges including a first conductive bus bar extending the length of the first parallel edge, and the at least one first contact portion of the first electrode being electrically connected to the first conductive bus bar; and
the second electrically conductive surface of the second substrate includes a first set of parallel edges and a second set of parallel edges that are orthogonal to the first set of parallel edges, at least one of the second set of parallel edges including a second conductive bus bar extending the length of the second parallel edge, and the at least one second contact portion of the second electrode being electrically connected to the second conductive bus bar.
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9. The method of claim 8, wherein the first and second conductive bus bars are formed of material having less resistivity than the material forming the first and second electrically conductive surfaces.
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10. The method of claim 9, wherein the bus bars are formed of silver.
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11. The method of claim 1, wherein substeps (c)(vii) and (c)(viii) comprise pouring conductive epoxy material into the hole and the aperture using an automated robot.
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12. The method of claim 1, wherein the first and second adhesive layers are provided in the form of adhesive films.
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13. The method of claim 1, wherein the first and second adhesive layers are silk-screened onto the third substrate.
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14. The method of claim 1, wherein substeps (c)(ii) and(c)(iii) are performed simultaneously.
Specification