Fiber optic light transfer device, modular assembly, and method of making
First Claim
1. A fiber optic light transfer device comprising:
- a plurality of optical fibers arranged as a series of spaced, parallel fiber ribbons; and
locator means for said fibers at one end portion of said fibers including a locator body having a series of spaced, parallel flanged locator body portions arranged parallel to said fiber ribbons defining a multiplicity of spaced, parallel slots extending through said body in which said ribbons are disposed, each said locator body portion having a spacer and a flange projecting out from one end of said spacer, said flanges being arranged end-to-end and said spacers being arranged in spaced parallel planes, said ribbons and spacers being successively arranged in an alternating series, each said flange having a first supporting surface against which an end fiber of an associated ribbon is positioned and each said spacer having a second supporting surface against which a face of an associated ribbon is positioned, said first and second supporting surfaces being disposed in first and second mutually perpendicular planes, said surfaces extending generally parallel to associated of said fibers to support said fibers along the fibers,one of said slots being a reference slot for locating a reference end fiber that extends perpendicular to a third plane that is mutually perpendicular to said first and second planes and a reference fiber ribbon in a reference of said second planes, there being further first and second supporting surfaces of further slots locating further end fibers in said first plane and further fiber ribbons at equally spaced intervals in second planes parallel to and displaced from said second reference plane to precisely locate and be adhered to the associated supporting surface to mechanically hold said fibers against movement relative to one another in relation to three mutually perpendicular planes,said secured fibers having exposed fiber ends terminating along a plane that is rotated 90 degrees to the plane of each ribbon and at an angle to said rotated plane to define an end surface with said exposed fiber ends.
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Accused Products
Abstract
A fiber optic light transfer device (11) has a plurality of optical fibers (12) with end surfaces (13 and 14). A locator body (21) for the fibers has a multiplicity of parallel slots (22) through which the fibers extend and by which the fibers are located and mechanically held. Each slot has first and second supporting surfaces (24 and 25) at right angles to one another in mutually perpendicular planes. First and second reference supporting surfaces (24R and 25R) locate a reference end fiber (12R) perpendicular to a third plane that is mutually perpendicular to the other two planes and a reference ribbon in the second plane. The further end fibers are located in the first plane and at equally spaced intervals in planes parallel to the second reference plane and, when adhered to the supporting surfaces, precisely locate and mechanically hold the fibers against movement relative to one another in three mutually perpendicular planes. In one method a plurality of channel-shaped members, each containing one ribbon, are stacked one on another and cut on a diagonal to form two identical devices.
42 Citations
16 Claims
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1. A fiber optic light transfer device comprising:
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a plurality of optical fibers arranged as a series of spaced, parallel fiber ribbons; and locator means for said fibers at one end portion of said fibers including a locator body having a series of spaced, parallel flanged locator body portions arranged parallel to said fiber ribbons defining a multiplicity of spaced, parallel slots extending through said body in which said ribbons are disposed, each said locator body portion having a spacer and a flange projecting out from one end of said spacer, said flanges being arranged end-to-end and said spacers being arranged in spaced parallel planes, said ribbons and spacers being successively arranged in an alternating series, each said flange having a first supporting surface against which an end fiber of an associated ribbon is positioned and each said spacer having a second supporting surface against which a face of an associated ribbon is positioned, said first and second supporting surfaces being disposed in first and second mutually perpendicular planes, said surfaces extending generally parallel to associated of said fibers to support said fibers along the fibers, one of said slots being a reference slot for locating a reference end fiber that extends perpendicular to a third plane that is mutually perpendicular to said first and second planes and a reference fiber ribbon in a reference of said second planes, there being further first and second supporting surfaces of further slots locating further end fibers in said first plane and further fiber ribbons at equally spaced intervals in second planes parallel to and displaced from said second reference plane to precisely locate and be adhered to the associated supporting surface to mechanically hold said fibers against movement relative to one another in relation to three mutually perpendicular planes, said secured fibers having exposed fiber ends terminating along a plane that is rotated 90 degrees to the plane of each ribbon and at an angle to said rotated plane to define an end surface with said exposed fiber ends. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 15, 16)
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12. A fiber optic image transfer device comprising:
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a plurality of optical fibers arranged as a series of spaced, parallel fiber ribbons; and first locator means for said fibers at one end portion of said fibers including a first generally wedge-shaped locator body having a series of spaced, parallel flanged locator body portions arranged parallel to said fiber ribbons defining a multiplicity of spaced, parallel slots extending through said body in which said ribbons are disposed, each said locator body portion having a spacer and a flange projecting out from one end of said spacer, said flanges being arranged end-to-end and said spacers being arranged in spaced parallel planes, said ribbons and spacers being successively arranged in an alternative series, each said flange having a first supporting surface against which an end fiber of an associated ribbon is positioned and each said spacer having a second supporting surface against which a face of an associate ribbon is positioned, said first and second supporting surfaces being disposed in first and second mutually perpendicular planes, said surfaces extending generally parallel to associated of said fibers to support said fibers along the fibers, one of said slots being a reference slot for locating a reference end fiber that extends perpendicular to a third plane that is mutually perpendicular to said first and second planes and a reference fiber ribbon in a reference of said second planes, there being further first and second supporting surfaces of further slots locating further end fibers in said first plane and further fiber ribbons at equally spaced intervals in second planes parallel to and displaced from said second reference plane to precisely locate and be adhered to the associated supporting surface to mechanically hold said fibers against movement relative to one another in relation to three mutually perpendicular planes, said secured fibers having exposed fiber ends terminating along a plane that is rotated 90 degrees to the plane of each ribbon and at an angle to said rotated plane to define an end surface with said exposed fiber ends; and second locator means at the other end portion of said fibers including a second generally wedge-shaped locator body having a multiplicity of parallel slots corresponding in shape to the slots of said first locator means, said second body being tapered along its length to bring said fibers into a tightly packed array of rows and columns of fibers.
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13. A method of making a fiber optic light transfer device comprising the steps of:
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providing a locator body having a series of spaced, parallel flanged locator body portions arranged parallel to said fiber ribbons defining a multiplicity of spaced, parallel slots extending through said body in which said ribbons are disposed, each said locator body portion having a spacer and a flange projecting out from one end of said spacer, said flanges being arranged end-to-end and said spacers being arranged in spaced parallel planes, said ribbons and spacers being successively arranged in an alternating series, each said flange having a first supporting surface against which an end fiber of an associated ribbon is positioned and each said spacer having a second supporting surface against which a face of an associated ribbon is positioned, said first and second supporting surfaces being disposed in first and second mutually perpendicular planes, one of said slots being a reference slot for locating a reference end fiber that extends perpendicular to a third plane that is mutually perpendicular to said first and second planes and a reference fiber ribbon in said second planes, there being further first and second supporting surfaces of further slots locating further end fibers in said first plane and further fiber ribbons at equally spaced intervals in second planes parallel to and displaced from said second reference plane; securing a fiber ribbon in each of said slots to mechanically hold said fibers against movement relative to one another in relation to three mutually perpendicular planes; and terminating said secured fibers to form exposed fiber ends that is rotated 90 degrees to the plane of each ribbon and at a slight angle to said rotated plane to define an end surface with said exposed fiber ends and form two identical light transfer devices.
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14. A method of making a fiber optic light transfer device comprising the steps of:
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placing intermediate portions of a ribbon of optical fibers to which an adhesive has been applied in the channel of a first channel-shaped locator member, each channel-shaped locator member having a spacer portion, a stepped out projecting flange portion extending out from opposite end portions of said spacer portion, and a stepped in notched portion opposite and complementary in shape to each projecting flange portion; stacking another identical locator member on said first locator member, with the flange portions of said first member fitting into the notched portions of said another locator member and repeating the procedure with the desired number of ribbons and locator members to form an integral block; and cutting vertically through said stack of locator members on an angle to the longitudinal axis of said fibers to form two identical light transfer devices.
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Specification