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BENDABLE SHIELDED BUS BAR

20200296867 ยท 2020-09-17

    Inventors

    Cpc classification

    International classification

    Abstract

    A bus bar assembly is provided that includes an electrical conductor with a rectangular cross-section. A first insulation layer surrounds the electrical conductor. A shielding layer surrounds the first insulation layer. The shielding layer is formed from an embossed conductive foil wrapped around the first insulation layer with overlapping sections. A method of making the bus bar assembly is provided that includes an electrical conductor being surrounded with a first insulating layer. The first insulating layer is then wrapped with a shielding layer formed from a conductive foil wrapped around the first insulation layer.

    Claims

    1. A bus bar assembly comprising: an electrical conductor with a rectangular cross-section; a first insulation layer surrounding the electrical conductor; a shielding layer surrounding the first insulation layer, said shielding layer formed from an embossed conductive foil wrapped around the first insulation layer with overlapping sections.

    2. The bus bar assembly of claim 1 further comprising a second insulating layer above the shielding layer.

    3. The bus bar assembly of claim 1 wherein said conductive foil is formed in a ribbon.

    4. The bus bar assembly of claim 1 wherein a degree or width of the overlapping sections is determined by a wrapping angle custom-character.

    5. The bus bar assembly of claim 4 wherein the wrapping angle custom-character is between twenty to seventy degrees.

    6. The bus bar assembly claim 1 wherein said conductive foil is embossed with a pattern in only one direction from a plane of said conductive foil.

    7. The bus bar assembly of claim 4 wherein said pattern is at least one of diamonds, offset rectangles, or squares.

    8. The bus bar assembly of claim 4 wherein said pattern is at least one of longitudinal, vertical, or diagonal lines depending on the embossing angle chosen.

    9. The bus bar assembly claim 1 wherein said conductive foil is fenestrated.

    10. The bus bar assembly claim 1 wherein said conductive foil is a screen like pattern of squares, hexagons, triangles, or dimples.

    11. The bus bar assembly claim 1 wherein said first insulator and said second insulator is formed rubber, plastic, or other composite materials.

    12. The bus bar assembly claim 1 wherein said electrical conductor is made of copper, brass, aluminum, stainless steel alloys, or other high conductivity materials designed to carry high current loads.

    13. The bus bar assembly claim 1 further comprising a set of terminations on said conductor.

    14. The bus bar assembly claim 1 wherein said conductive foil is a ribbon.

    15. The bus bar assembly claim 1 further comprising a wire braid intermediate between said electrical conductor and said shielding layer.

    16. The bus bar assembly claim 1 further comprising a wire braid overlayer on said shielding layer.

    17. A method of making a bus bar assembly, the method comprising: surrounding an electrical conductor with a first insulating layer; wrapping said first insulating layer with a shielding layer; wherein said shielding layer is formed from a conductive foil wrapped around the first insulation layer.

    18. The method of claim 17 further comprising placing a second insulating layer above the shielding layer.

    19. The method of claim 17 wherein said conductive foil is formed in a ribbon.

    20. The method of claim 19 wherein said wrapping is with overlapping sections with successive wraps wherein the overlapping sections overlap between 0 and 50% of a width of said ribbon.

    21. (canceled)

    22. (canceled)

    Description

    BRIEF DESCRIPTION OF THE DRAWINGS

    [0009] The subject matter that is regarded as the invention is particularly pointed out and distinctly claimed in the claims at the conclusion of the specification. The foregoing and other objects, features, and advantages of the invention are apparent from the following detailed description taken in conjunction with the accompanying drawings in which:

    [0010] FIG. 1 illustrates a perspective view of a prior art bus bar with a braided shielding layer;

    [0011] FIG. 2 illustrates a perspective view of a roll of shielding wrap used to form a shielding layer in accordance with embodiments of the invention;

    [0012] FIG. 3 illustrates a perspective view of an embodiment of the inventive bendable bus bar without an outer insulating jacket to illustrate the integrity of the shield wrap with a right angle bend and twist;

    [0013] FIG. 4 illustrates a sectioned perspective view showing a conductive bus bar with an interior insulating layer, wrapped in a shielding layer formed with a conductive wrap and an outer insulator in accordance with an embodiment of the invention;

    [0014] FIG. 5 illustrates an overlapping pattern of the conductive wrap in accordance an embodiment of the inventive bendable bus bar; and

    [0015] FIGS. 6A-6H illustrate examples of embossed patterns in the conductive wrap in accordance with embodiments of the invention.

    DETAILED DESCRIPTION OF THE INVENTION

    [0016] The present invention has utility as a bendable bus bar that may be bent and twisted without causing separation gaps in the shielding layer. The ability to bend and twist the shielding layer without causing gaps prevents degradation in the shielding performance of the shielding layer of embodiments of the bendable bus bar. The shielding layer is formed with a conductive foil wrap, that has embossed patterns to prevent unwanted creasing and bunching when twisting and bending occurs.

    [0017] As used herein embossed is defined to include a material that has features that have been pressed into relief out of the plane of the material and also includes features that have been cut from the material to form fenestrations.

    [0018] It is to be understood that in instances where a range of values are provided that the range is intended to encompass not only the end point values of the range but also intermediate values of the range as explicitly being included within the range and varying by the last significant figure of the range. By way of example, a recited range of from 1 to 4 is intended to include 1-2, 1-3, 2-4, 3-4, and 1-4.

    [0019] The conductive foil wrap may be stored as a ribbon on a roll. The conductive foil may be formed from aluminum, copper, tin, nickel, stainless steels, and alloys containing any of the aforementioned or laminates thereof. An alloy that contains any of the aforementioned will have an individual metal present in an amount of at least present of 20 total weight percent or if more than one of the aforementioned metals in present, in a collective amount of at least 30 total weight percent. The thickness of the foil is typically between 0.0178 and 0.2134 mm in thickness, where thickness is measured in a non-embossed region of the material ribbon. The shielding layer is formed by wrapping the foil ribbon around an insulting layer of a bus bar with overlapping portions or seams 32F (front) and 32R (rear), where the degree or width of overlap is determined by the wrapping angle custom-character as shown in FIG. 5. The wrapping angle custom-character may be in a range of twenty to seventy degrees (20-70). The insulating layer is a conventional polymer that illustratively includes ethylene propylene polymers, such as ethylene propylene rubber (EPR) and ethylene propylene diene monomer (EPDM); silicone rubbers such as polydimethylsiloxane, thiophene rubbers, thermoplastic polyether polyurethane, and copolymers containing any of the aforementioned as blocks of a co-polymer or randomized copolymers. It is appreciated that insulating layers are routinely applied on a bus bar through techniques including extrusion and dip coating.

    [0020] Referring now to the figures, FIG. 2 shows a ribbon roll 20 of shielding wrap 22 that may be used to form a shielding layer for inventive embodiments of the bendable bus bar. The shielding wrap 22 has an embossed diamond pattern however it is appreciated that other embossed patterns may be used. Illustrative non-limiting examples are shown in FIGS. 6A-6H where the regions defined between black lines are raised in a one direction relative to the plane of the page that represents the ribbon plane, opposing directions, or when an area is bounded by lines, each bound area independently is a cut-out, synonymously referred to herein as a fenestration. FIG. 6A shows the diamond pattern, while FIG. 6B is a pattern of offset rectangles arranged at an angle. FIG. 6C depicts longitudinal or vertical lines depending on the embossing angle chosen, and FIG. 6D are diagonal lines. FIG. 6E is a screen like pattern of squares. FIG. 6F is a hexagonal pattern with a central dimple. FIG. 6G is a close-packed trigional pattern. FIG. 6H is a close packaged dimple array pattern. It is appreciated that fenestrations are used to form a screen with openings, where the openings are effectively sized to block frequencies required in the environment of the application the bus bar is used in. The use of fenestrations saves on material and on weight at the expense of potential for leakage. Leakage in turn is in turn offset by overlapping successive wrappings and determining the frequencies of electromagnetic radiation that will be created when the bus bar is in operation. The shielding wrap 22 in specific instances lacks an adhesive backing as found in a tape, since an adhesive backing restricts the free movement of the shielding wrap 22 with flexure and twisting of the bus bar.

    [0021] FIG. 3 illustrates a perspective view of an embodiment of the inventive bendable bus bar 30 without an outer insulating jacket to illustrate the integrity of the shield wrap 22 with a right angle bend and twist. As can be seen in the figure the shield wrap 22 has overlapping seams 32 that form a shielding layer 34 over an insulating layer 36 that covers the bus bar conductor. The insulating layer may be formed from a pliable and bendable material such as plastics, composites, or rubber. As may be seen in the area of the bend and twist in the circled area B, the wrap does not separate or deform as is the case with braided shielding layers as was shown in area A of FIG. 1.

    [0022] FIG. 4 illustrates a sectioned perspective view showing an embodiment of a conductive bus bar assembly 40 with an interior insulating layer 36 covering a conductor 42 that is wrapped in a shielding layer 34 formed with a conductive wrap 22 and an outer insulator 38. In particular, inventive embodiments, it appears that an embossed pattern raised on only one side of the ribbon when wrapped with the raised features interior provides greater flexure prior to tearing that when the raised features are exterior. The shielding layer 34 in some embodiments is wrapped with overlap areas 32. In other inventive embodiments the shielding layer 34 is wrapped with end-to-end seams. Overlap areas between successive wraps range from 0 to 50% of the ribbon width. The conductor 42 may illustratively include copper, brass, aluminum, stainless steel alloys, or other high conductivity materials designed to carry high current loads. While the cross-section of the conductor is shown as rectangular, it is appreciated that other cross-sectional shapes may be used illustratively including rods, solid or hollow tubes, and braided wire. In some inventive embodiments, braided wire layer is intermediate between the conductor and the shielding layer/In still other embodiments, the wire braid is adjacent to the shielding layer and is either inter to, or external to the shielding layer. An aperture 44 at the terminating ends 46 may be used to secure the bus bar assembly 40 to an electrical assembly.

    [0023] The foregoing description is illustrative of particular embodiments of the invention, but is not meant to be a limitation upon the practice thereof. The following claims, including all equivalents thereof, are intended to define the scope of the invention.