Method of manufacturing mirror assembly with spring-loaded electrical connectors
First Claim
1. A method for manufacturing a rearview mirror assembly for a vehicle, said method comprising:
- providing an electro-optic reflective element having a front substrate and a rear substrate and an electro-optic medium sandwiched therebetween, wherein the front substrate has a first surface and a second surface with a transparent electrically conductive coating at the second surface and in contact with the electro-optic medium, and wherein the rear substrate has a third surface and a fourth surface with an electrically conductive coating at the third surface and in contact with the electro-optic medium;
establishing a first electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the transparent electrically conductive coating at the second surface of the front substrate;
establishing a second electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the electrically conductive coating at the third surface of the rear substrate;
providing a back plate, wherein the back plate has first and second passageways established therethrough;
disposing a first spring-loaded electrical connector in the first passageway of the back plate;
disposing a second spring-loaded electrical connector in the second passageway of the back plate;
providing a circuit element having electro-optic control circuitry established thereat, wherein the circuit element has first and second electrically conductive traces in electrical connection with the electro-optic control circuitry;
attaching the back plate at the reflective element;
attaching the circuit element at the back plate;
wherein, with the back plate attached at the reflective element and with the circuit element attached at the back plate, (i) the first spring-loaded electrical connector is biased into electrical contact with the first electrically conductive element and is biased into electrical contact with the first electrically conductive trace to electrically connect the first electrically conductive trace to the first electrically conductive element and (ii) the second spring-loaded electrical connector is biased into electrical contact with the second electrically conductive element and is biased into electrical contact with the second electrically conductive trace to electrically connect the second electrically conductive trace to the second electrically conductive element; and
wherein disposing the first and second spring-loaded electrical connectors in the first and second passageways comprises movably disposing the first and second spring-loaded electrical connectors in the first and second passageways so that the first and second spring-loaded electrical connectors are longitudinally movable within and partially along the first and second passageways, respectively.
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Abstract
A method of manufacturing a rearview mirror assembly for a vehicle includes providing an electro-optic reflective element and a back plate. First and second spring-loaded electrical connectors are disposed in respective passageways of the back plate. A circuit element is provided that has an electrically conductive trace electrically connected to control circuitry. The back plate is attached at the reflective element, and the circuit element is attached at the back plate. With the back plate attached at the reflective element and with the circuit element attached at the back plate, the spring-loaded electrical connectors are biased into electrical contact with a respective electrically conductive element at the reflective element and a respective electrically conductive trace at the circuit element to electrically connect the electrically conductive trace to the electrically conductive element.
43 Citations
22 Claims
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1. A method for manufacturing a rearview mirror assembly for a vehicle, said method comprising:
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providing an electro-optic reflective element having a front substrate and a rear substrate and an electro-optic medium sandwiched therebetween, wherein the front substrate has a first surface and a second surface with a transparent electrically conductive coating at the second surface and in contact with the electro-optic medium, and wherein the rear substrate has a third surface and a fourth surface with an electrically conductive coating at the third surface and in contact with the electro-optic medium; establishing a first electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the transparent electrically conductive coating at the second surface of the front substrate; establishing a second electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the electrically conductive coating at the third surface of the rear substrate; providing a back plate, wherein the back plate has first and second passageways established therethrough; disposing a first spring-loaded electrical connector in the first passageway of the back plate; disposing a second spring-loaded electrical connector in the second passageway of the back plate; providing a circuit element having electro-optic control circuitry established thereat, wherein the circuit element has first and second electrically conductive traces in electrical connection with the electro-optic control circuitry; attaching the back plate at the reflective element; attaching the circuit element at the back plate; wherein, with the back plate attached at the reflective element and with the circuit element attached at the back plate, (i) the first spring-loaded electrical connector is biased into electrical contact with the first electrically conductive element and is biased into electrical contact with the first electrically conductive trace to electrically connect the first electrically conductive trace to the first electrically conductive element and (ii) the second spring-loaded electrical connector is biased into electrical contact with the second electrically conductive element and is biased into electrical contact with the second electrically conductive trace to electrically connect the second electrically conductive trace to the second electrically conductive element; and wherein disposing the first and second spring-loaded electrical connectors in the first and second passageways comprises movably disposing the first and second spring-loaded electrical connectors in the first and second passageways so that the first and second spring-loaded electrical connectors are longitudinally movable within and partially along the first and second passageways, respectively.
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2. A method for manufacturing a rearview mirror assembly for a vehicle, said method comprising:
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providing an electro-optic reflective element having a front substrate and a rear substrate and an electro-optic medium sandwiched therebetween, wherein the front substrate has a first surface and a second surface with a transparent electrically conductive coating at the second surface and in contact with the electro-optic medium, and wherein the rear substrate has a third surface and a fourth surface with an electrically conductive coating at the third surface and in contact with the electro-optic medium; establishing a first electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the transparent electrically conductive coating at the second surface of the front substrate; establishing a second electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the electrically conductive coating at the third surface of the rear substrate; providing a back plate, wherein the back plate has first and second passageways established therethrough; disposing a first spring-loaded electrical connector in the first passageway of the back plate; disposing a second spring-loaded electrical connector in the second passageway of the back plate; providing a circuit element having electro-optic control circuitry established thereat, wherein the circuit element has first and second electrically conductive traces in electrical connection with the electro-optic control circuitry; attaching the back plate at the reflective element; attaching the circuit element at the back plate; wherein, with the back plate attached at the reflective element and with the circuit element attached at the back plate, (i) the first spring-loaded electrical connector is biased into electrical contact with the first electrically conductive element and is biased into electrical contact with the first electrically conductive trace to electrically connect the first electrically conductive trace to the first electrically conductive element and (ii) the second spring-loaded electrical connector is biased into electrical contact with the second electrically conductive element and is biased into electrical contact with the second electrically conductive trace to electrically connect the second electrically conductive trace to the second electrically conductive element; and wherein disposing the first spring-loaded electrical connector in the first passageway comprises disposing the first spring-loaded electrical connector in the first passageway and retaining the first spring-loaded electrical connector in the first passageway via a flange of the back plate in the first passageway and a pair of spaced apart flanges of the first spring-loaded electrical connector. - View Dependent Claims (3, 4)
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5. A method for manufacturing a rearview mirror assembly for a vehicle, said method comprising:
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providing an electro-optic reflective element having a front substrate and a rear substrate and an electro-optic medium sandwiched therebetween, wherein the front substrate has a first surface and a second surface with a transparent electrically conductive coating at the second surface and in contact with the electro-optic medium, and wherein the rear substrate has a third surface and a fourth surface with an electrically conductive coating at the third surface and in contact with the electro-optic medium; establishing a first electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the transparent electrically conductive coating at the second surface of the front substrate; establishing a second electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the electrically conductive coating at the third surface of the rear substrate; providing a back plate, wherein the back plate has first and second passageways established therethrough; disposing a first spring-loaded electrical connector in the first passageway of the back plate; disposing a second spring-loaded electrical connector in the second passageway of the back plate; providing a circuit element having electro-optic control circuitry established thereat, wherein the circuit element has first and second electrically conductive traces in electrical connection with the electro-optic control circuitry; attaching the back plate at the reflective element; attaching the circuit element at the back plate; wherein, with the back plate attached at the reflective element and with the circuit element attached at the back plate, (i) the first spring-loaded electrical connector is biased into electrical contact with the first electrically conductive element and is biased into electrical contact with the first electrically conductive trace to electrically connect the first electrically conductive trace to the first electrically conductive element and (ii) the second spring-loaded electrical connector is biased into electrical contact with the second electrically conductive element and is biased into electrical contact with the second electrically conductive trace to electrically connect the second electrically conductive trace to the second electrically conductive element; and wherein, with the first and second spring-loaded electrical connectors disposed in the first and second passageways, respectively, a length dimension of the first and second spring-loaded electrical connectors when extended is greater than a thickness dimension of the back plate at the respective first and second passageways. - View Dependent Claims (6, 7, 8, 9, 10)
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11. A method for manufacturing a rearview mirror assembly for a vehicle, said method comprising:
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providing an electro-optic reflective element having a front substrate and a rear substrate and an electro-optic medium sandwiched therebetween, wherein the front substrate has a first surface and a second surface with a transparent electrically conductive coating at the second surface and in contact with the electro-optic medium, and wherein the rear substrate has a third surface and a fourth surface with an electrically conductive coating at the third surface and in contact with the electro-optic medium; establishing a first electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the transparent electrically conductive coating at the second surface of the front substrate; establishing a second electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the electrically conductive coating at the third surface of the rear substrate; providing a back plate, wherein the back plate has first and second passageways established therethrough; disposing a first spring-loaded electrical connector in the first passageway of the back plate; disposing a second spring-loaded electrical connector in the second passageway of the back plate; providing a circuit element having electro-optic control circuitry established thereat, wherein the circuit element has first and second electrically conductive traces in electrical connection with the electro-optic control circuitry; attaching the back plate at the reflective element; attaching the circuit element at the back plate; wherein, with the back plate attached at the reflective element and with the circuit element attached at the back plate, (i) the first spring-loaded electrical connector is biased into electrical contact with the first electrically conductive element and is biased into electrical contact with the first electrically conductive trace to electrically connect the first electrically conductive trace to the first electrically conductive element and (ii) the second spring-loaded electrical connector is biased into electrical contact with the second electrically conductive element and is biased into electrical contact with the second electrically conductive trace to electrically connect the second electrically conductive trace to the second electrically conductive element; and wherein the first spring-loaded electrical connector comprises a first electrically conductive body portion and a second electrically conductive body portion movable relative to the first electrically conductive body portion and in electrical conductivity therewith, and wherein the first electrically conductive body portion comprises a reflective element-contacting end that, when the first spring-loaded electrical connector is disposed in the first passageway, contacts the first electrically conductive element at the fourth surface of the rear substrate, and wherein the second electrically conductive body portion comprises a circuitry-contacting end that, when the first spring-loaded electrical connector is disposed in the first passageway, contacts the first electrically conductive trace at the circuit element. - View Dependent Claims (12, 13, 14, 15)
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16. A method of manufacturing a rearview mirror assembly for a vehicle, said method comprising:
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providing an electro-optic reflective element having a front substrate and a rear substrate and an electro-optic medium sandwiched therebetween, wherein the front substrate has a first surface and a second surface with a transparent electrically conductive coating at the second surface and in contact with the electro-optic medium, and wherein the rear substrate has a third surface and a fourth surface with an electrically conductive coating at the third surface and in contact with the electro-optic medium; establishing a first electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the transparent electrically conductive coating at the second surface of the front substrate; establishing a second electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the electrically conductive coating at the third surface of the rear substrate; providing a back plate, wherein the back plate has first and second passageways established therethrough; disposing a first spring-loaded electrical connector in the first passageway of the back plate, wherein, with the first spring-loaded electrical connector disposed in the first passageway of the back plate, opposite ends of the first spring-loaded electrical connector protrude from respective sides of the back plate; disposing a second spring-loaded electrical connector in the second passageway of the back plate, wherein, with the second spring-loaded electrical connector disposed in the second passageway of the back plate, opposite ends of the second spring-loaded electrical connector protrude from respective sides of the back plate; providing a circuit element having electro-optic control circuitry established thereat, wherein the circuit element has first and second electrically conductive traces in electrical connection with the electro-optic control circuitry; attaching the back plate at the reflective element; attaching the circuit element at the back plate; and wherein, with the back plate attached at the reflective element and with the circuit element attached at the back plate, (i) the first spring-loaded electrical connector is compressed to a compressed state and is biased toward an extended state such that the opposite ends of the first spring-loaded electrical connector are urged into electrical contact with the first electrically conductive element and the first electrically conductive trace to electrically connect the first electrically conductive trace to the first electrically conductive element and (ii) the second spring-loaded electrical connector is compressed to a compressed state and is biased toward an extended state such that the opposite ends of the second spring-loaded electrical connector are urged into electrical contact with the second electrically conductive element and the second electrically conductive trace to electrically connect the second electrically conductive trace to the second electrically conductive element. - View Dependent Claims (17, 18)
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19. A method of manufacturing a rearview mirror assembly for a vehicle, said method comprising:
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providing an electro-optic reflective element having a front substrate and a rear substrate and an electro-optic medium sandwiched therebetween, wherein the front substrate has a first surface and a second surface with a transparent electrically conductive coating at the second surface and in contact with the electro-optic medium, and wherein the rear substrate has a third surface and a fourth surface with an electrically conductive coating at the third surface and in contact with the electro-optic medium; establishing a first electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the transparent electrically conductive coating at the second surface of the front substrate; establishing a second electrically conductive element at the fourth surface of the rear substrate that is in electrical connection with the electrically conductive coating at the third surface of the rear substrate; providing a back plate, wherein the back plate has first and second passageways established therethrough; disposing a first spring-loaded electrical connector in the first passageway of the back plate; wherein the first spring-loaded electrical connector comprises (i) a first electrically conductive reflective element-contacting body portion and (ii) a first electrically conductive circuitry-contacting body portion movable relative to the first electrically conductive reflective element-contacting body portion and in electrical conductivity therewith; wherein the first spring-loaded electrical connector comprises a first spring disposed within a cavity formed by the first electrically conductive reflective element-contacting body portion and the first electrically conductive circuitry-contacting body portion, and wherein the first spring biases the first spring-loaded electrical connector toward an extended state; disposing a second spring-loaded electrical connector in the second passageway of the back plate; wherein the second spring-loaded electrical connector comprises (i) a second electrically conductive reflective element-contacting body portion and (ii) a second electrically conductive circuitry-contacting body portion movable relative to the second electrically conductive reflective element-contacting body portion and in electrical conductivity therewith; wherein the second spring-loaded electrical connector comprises a second spring disposed within a cavity formed by the second electrically conductive reflective element-contacting body portion and the second electrically conductive circuitry-contacting body portion, and wherein the second spring biases the second spring-loaded electrical connector toward an extended state; providing a circuit element having electro-optic control circuitry established thereat, wherein the circuit element has first and second electrically conductive traces in electrical connection with the electro-optic control circuitry; wherein the circuit element comprises a printed circuit board; attaching the back plate at the reflective element; attaching the circuit element at the back plate; wherein, when the first spring-loaded electrical connector is disposed in the first passageway and when the back plate is attached at the reflective element and the circuit element is attached at the back plate, the first electrically conductive reflective element-contacting body portion of the first spring-loaded electrical connector contacts the first electrically conductive element at the fourth surface of the rear substrate and the first electrically conductive circuitry-contacting body portion of the first spring-loaded electrical connector contacts the first electrically conductive trace at the circuit element; and wherein, when the second spring-loaded electrical connector is disposed in the second passageway and when the back plate is attached at the reflective element and the circuit element is attached at the back plate, the second electrically conductive reflective element-contacting body portion of the second spring-loaded electrical connector contacts the second electrically conductive element at the fourth surface of the rear substrate and the second electrically conductive circuitry-contacting body portion of the second spring-loaded electrical connector contacts the second electrically conductive trace at the circuit element. - View Dependent Claims (20, 21, 22)
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Specification