KING NANCY (US)
KING NANCY (US)
| US1029207A | 1912-06-11 | |||
| US1239142A | 1917-09-04 | |||
| US3603717A | 1971-09-07 | |||
| US3531578A | 1970-09-29 | |||
| US2056366A | 1936-10-06 | |||
| US2890311A | 1959-06-09 | |||
| US3574104A | 1971-04-06 | |||
| US3429758A | 1969-02-25 | |||
| US3813837A | 1974-06-04 | |||
| US3715460A | 1973-02-06 | |||
| US2453319A | 1948-11-09 | |||
| US3803345A | 1974-04-09 | |||
| DE2134471A1 | 1973-02-15 | |||
| DE1540295A1 | 1970-01-02 | |||
| DE708528C | 1941-07-23 | |||
| GB919534A | 1963-02-27 |
| 1. | A utility insulated crossarm for supporting electrical wires from a utility pole comprising: a triangular frame having a base and a peak, said triangular frame being constructed from an insulative material; left and right horizontal crossarms integral with said triangular frame, constructed from an insulative material, located at the base of said triangular frame, said horizontal crossarms each having an upper surface; an upper support member integral with and located at said peak of said triangular frame, constructed from an insulative material; attachment means for attaching said electrical wire to said upper support member; and mounting means for mounting said triangular frame to said utility pole, said mounting means comprised of a plurality of holes located along a vertical center line of said triangular frame, for bolting said triangular frame to said utility pole. |
| 2. | A utility insulated crossarm as recited in Claim 1 wherein said left and right horizontal crossarms are coplanar with said triangular frame. |
| 3. | A utility insulated crossarm as recited in Claim 2 wherein said left and right horizontal crossarms have at the distal ends thereof a plurality of lateral support members, located on and integral with said upper surface of said left and right horizontal crossarms, said lateral support members being constructed from an insulative material. |
| 4. | A utility insulated crossarm as recited in Claim 1 wherein said triangular frame and said left and right horizontal crossarms are comprised of: an outer shell of polyester resin material; a plurality of alternating layers of synthetic fabric and polyester resin material; an inner core composed of a mixture of polyester resin and particulate matter; and a central longitudinal metal reinforcing bar. |
| 5. | A utility insulated crossarm as recited in Claim 1 wherein said triangular frame and said left and right horizontal cross— arms are comprised of: an outer shell of polyester resin material; a plurality of alternating layers of synthetic fabric and polyester resin material; an inner core composed of polyurethane foam; and a central longitudinal fiberglass reinforcing rod. |
| 6. | A utility insulated crossarm as recited in Claim 4 wherein said upper support member and said lateral support members are each comprised of and integral with a rectangular insulator having a support surface, said support surface having a trough for accommodating an electrical wire. |
| 7. | A utility insulated crossarm as recited in Claim 6 wherein: said rectangular insulator has a left side and a right side; and, each of said left and right sides of said rectangular insulator has a lon¬ gitudinal depression parallel to said trough, located near the support surface of said rectangular insulator. |
| 8. | A utility insulated crossarm as recited in Claim 7 wherein said attachment means is comprised of a strap overlapping said electrical wire, being tautly held against said longitudinal depressions on each of said left and right sides of said rectangular insulator. |
| 9. | A utility insulated crossarm as recited in Claim 7 wherein said attach¬ ment means is comprised of a clamp resting upon said wire and said support surface of said rectangular insulator, said clamp having flanges which forcibly abut said longitudinal depressions on each of said left and right sides of said rectangular insulator. |
| 10. | A utility insulated crossarm as recited in Claim 1 wherein said triangular frame has a front side and a rear side, said rear side having a curved surface along said vertical center line to facilitate attachment of said triangular frame to said utility pole. |
| 11. | A utility insulated crossarm as recited in Claim 4 wherein said triangular frame has a front side and a rear side, said rear side having a curved surface along said vertical center line to facilitate attachment of said triangular frame to said utility pole. |
| 12. | A utility insulated crossarm as recited in Claim 6 wherein said triangular frame has a front side and a rear side, said rear side having a curved surface along said vertical center line to facilitate attachment of said triangular frame to said utility pole. |
| 13. | A utility insulated crossarm as recited in Claim 7 wherein said triangular frame has a front side and a rear side, said rear side having a curved surface along said vertical center line to facilitate attachment of said triangular frame to said utility pole. |
| 14. | A utility insulated crossarm as recited in Claim 8 wherein said triangular frame has a front side and a rear side, said rear side having a curved surface along said vertical center line to facilitate attachment of said triangular frame to said utility pole. |
| 15. | A utility insulated crossarm as recited in Claim 9 wherein said triangular frame has a front side and a rear side, said rear side having a curved surface 5 along said vertical center line to facilitate attachment of said triangular frame to said utility pole. |
| 16. | A utility insulated crossarm for supporting electrical wires from a utility pole comprising: a rigid bar made of insulative material, having left and right ends, and a 10. central portion; two diagonal members integral with said bar, located on either side of said central portion of said bar, said diagonal members joined at a peak, forming a triangle with said bar; a plurality of support members, one mounted at and integral with said 5 peak, and others distributed along and integral with said bar, each having a support surface with a trough, for supporting said electrical wires, said support members also having lateral depressions; attachment means for securing said electrical wires to said support members by rigidly fastening said attachment means to said electrical wire and said 0 lateral depressions of said support members; and a concave surface located at said peak of said diagonal members, and at said central portion of said bar, said concave surface running perpendicular to said bar, said concave surface having apertures therein for mounting said cross arm to said utility pole. 5 17. A utility insulated crossarm as recited in Claim 16 wherein said rigid bar is comprised of: a central longitudinal metal rod; an inner core surrounding said rod, said inner core being a mixture of polyester resin and particulate matter; 0 alternating layers of polyester resin and synthetic fabric surrounding said inner core; and an outer shell of polyester resin material. 18. A utility insulated crossarm as recited in Claim 16 wherein said rigid bar is comprised of: 5 a central longitudinal fiberglass rod; an inner core surrounding said rod, said inner core being composed of polyurethane foam; alternating layers of polyester resin and synthetic fabric surrounding said inner core; and an outer shell of polyester resin material. |
BACKGROUND ART Since the earliest use of power transmission lines, there has been a recogni¬ tion of the need to support the lines above the ground to provide isolation between the lines and the environment. One of the most common arrangements for supporting transmission lines comprises a plurality of electrical insulators mounted on wooden cross-arms attached to vertical wooden poles. Such struc¬ tures are generally constructed in a sequential manner with a first work crew mounting the wooden poles in the ground, followed by a second work crew which, secures the cross-arms to the poles and mounts the electrical insulators on the cross-arms.
Wooden support structures of the type described above have a number of shortcomings, both with regard to durability and with regard to ease of construc¬ tion. The wooden poles and cross-arms are subject to deterioration from exposure to the environment and from internal defects in the materials.
DISCLOSURE OF THE INVENTION The utility insulated cross-arm overcomes the above-mentioned difficulties by providing a modular power transmission support structure which can be manufactured at a central location, transported as a complete unit to a remote location, and then installed in a very short period of time. The cross-arm structure comprises a generally triangular central portion and two horizontal arms extending laterally from the base of the central triangular portion. In the preferred embodiment, the triangular central portion and the laterally- extending arms are comprised of members having a generally square cross- section. An electrical insulator adapted to carry a power transmission line is mounted on the top of the central triangular portion of the structure and on the upper surface of each of the laterally extending horizontal arms. The insulators are attached in a predetermined, fixed, spaced relation which ensures adequate electrical separation between the transmission lines carried on the insulators.
The structural members of the cross-arms comprise an outer shell formed from a polyester resin material and a plurality of alternating layers of polyester resin material and synthetic fabric contained within the shell. The inner core of each structural member contains a longitudinally extending metal bar or cable surrounded by a mixture of polyester resin and particulate matter.
The utility insulated cross-arm support structure for power transmission lines can be mounted quickly and easily on a vertical pole by a single installer working alone. The cross-arm is extremely resistant to deterioration resulting from exposure to the environment and from damage caused by vandals or wild animals.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1 is an elevational front view of the utility insulated cross-arm support structure of the present invention.
FIG. 2 is an elevational side view of the utility insulated cross-arm support structure of the present invention.
FIG. 3 is a cross-sectional side view taken along section lines 3-3 of FIG. 1 showing details relating to the internal structure of the utility cross-arm.
FIG. 4 is a perspective rear view of the utility cross-arm support structure of the present invention.
BEST MODE FOR CARRYING OUT THE INVENTION
AND INDUSTRIAL APPLICABILITY
With reference now to the Figures and in particular with reference to
Figure 1, there is depicted a front view of the utility insulated cross-arm 10. Utility insulated cross-arm 10 is generally comprised of a triangular frame 12 having a peak 14 and a base 16, and left and right horizontal cross-arms 18 and 20, respectively. The horizontal cross-arms 18 and 20 are preferably in the same plane as the triangular frame 12 as is shown in Figure 2. Resting on the upper surface of cross-arms 18 and 20 are lateral supports 22 and 24, located at the distal ends of the cross-arms. An upper support 26, similar to lateral supports 22 and 24, rests on the peak 14 of triangular frame 12. Each of supports 22, 24 and 26 is rectangular in shape, tapering to form longitudinal depressions 30 and 32, and then flaring to form an upper surface 34. The upper surface 34 has a trough 36 therein to provide more stable support for utility lines.
With reference now to Figure 3, there is depicted a cross-sectional view of horizontal cross-arm 18. Note that Figure 3 could also represent cross- sectionals of horizontal cross-arm 20, base 16, or either of the diagonal members of triangular frame 12. The outer shell of cross-arm 18 is composed of a polyester resin material 50. Inside the cross-arm are alternating layers of polyester resin 52 and a synthetic fabric 54. The inner core 56 is formed of a mixture of polyester resin and particulate matter. Inner core 56 may alternately be composed of polyurethane foam. A central metal bar 58 provides extra reinforcement. The bar 58 may alternately be a fiberglass rod or nylon cable. With further reference to Figure 4, there is depicted a rear perspective view of the utility insulated cross-arm 10. The device is mounted to a utility pole by means of upper holes 40 and lower hole 42. In the preferred embodiment, bolts are inserted through these holes and then fastened to the utility pole. The rear side of the utility cross-arm 10 has a curved surface 44 along the vertical center line to facilitate attachment of the device to the pole.
Electrical wires 60 rest in the trough 36 and are secured thereto by a strap 62 which overlaps wire 60 and is tautly placed around depressions 30 and 32 of support member 22, 24, or 26. Strap 62 may be replaced by a clamping mechanism 64 which rests upon upper surface 34 and clamps wire 60 to the support member by forcible contact with depressions 30 and 32.
The device may be used throughout the utility industry, for supporting telephone lines, power lines, and other transmission cables.
Although the invention has been described with reference to specific embodiments, this description is not meant to be construed in a limiting sense. Various modifications of the disclosed embodiment will become apparent to persons skilled in the art upon reference to the description of the invention. It is therefore contemplated that the appended claims will cover such modifica¬ tions that fall within the true scope of the invention.