US1961962A - Electric cable - Google Patents

Electric cable Download PDF

Info

Publication number
US1961962A
US1961962A US346506A US34650629A US1961962A US 1961962 A US1961962 A US 1961962A US 346506 A US346506 A US 346506A US 34650629 A US34650629 A US 34650629A US 1961962 A US1961962 A US 1961962A
Authority
US
United States
Prior art keywords
cable
conductors
flexibility
twisted
electric cable
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Lifetime
Application number
US346506A
Inventor
Cremer Carl
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Individual
Original Assignee
Individual
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Individual filed Critical Individual
Application granted granted Critical
Publication of US1961962A publication Critical patent/US1961962A/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

Links

Images

Classifications

    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B7/00Insulated conductors or cables characterised by their form
    • H01B7/17Protection against damage caused by external factors, e.g. sheaths or armouring
    • H01B7/18Protection against damage caused by wear, mechanical force or pressure; Sheaths; Armouring
    • H01B7/22Metal wires or tapes, e.g. made of steel
    • H01B7/226Helicoidally wound metal wires or tapes

Definitions

  • a multiple core cable is made of several intercoiled conductor cables each provided with a metal covering, whose individual conductors consist of one solid wire of over 10 sq. m. m. cross-section.
  • the total flexibility of this cable is greater than. that of the normal cable with a common lead covering en-- closing all the cores. Because, in the first place, with the cable according to the invention, the total lead cross-sectionis smaller than that of a normal cable with girdle insulation and a common lead covering. In the second place, the resistance to bending of the lead coverings of the individual cores by reason of their considerably s aller diameter is, taken together, appreciably less than that of a corresponding cab le with girdle insulation. Thirdly, because the individual cores due to their smooth surfaces yield more readily to displacement upon each other.
  • the flexibility is further materially assisted in that with such a multiple core cable made of several single-core cables twisted together, the individual cores lie in plain helical paths with respect to one another.
  • Multicore cables with several insulated conductor-cores twisted together and each provided with a lead-covering are well known; but with conductors having cross-sections of over ten square millimeters the conductors always consisted of several stranded wires.
  • the invention consists in the improvement, that in combination with this kind of multicore cables conductors are employed, which consist each of one solid wire.
  • Fig. 1 discloses a sectional view of the composite cable
  • Fig. 2 discloses a perspective view of the composite cable with portions broken away.
  • the drawing shows one constructional embodiment of the cable according to the invention.
  • 1 are the solid conductors of a three core cable.
  • 2 are the insulating layers, 3 the lead coverings, 4 is the usual inner jute layer or bedding, 5 the armouring, for example iron or steel strip or wire, and 6 the outer jute layer.
  • ungirdled is used to exclude an outer, continuous, impervious metal sheath for the cable as a'whole, as for example lead sheaths wh ch are commonly used.
  • a plurality of main, conductor elements each conductor consisting of a single wire having a smooth, uninterrupted exterior length and being above twentyfive square millimeters in cross section, impregnated insulatng material surrounding each of said conductors individually, said wire contacting said material at all points of the length of the wire and leaving no gaps between the wire and material, whereby the impregnating material is prevented from flowing out the ends of the cable and the d'electric stress is reduced, said insulating material being surrounded by a metal sheath, and the sheathed conductor elements being twisted together helically.
  • a heavy-current, ungirdled electric cable having greater flexibility, higher conductivity, and
  • a girdled cable of the same diameter comprising three conductors, each consisting of a single, solid, unstranded wire greater than twenty-five square millimeters in cross-section, each of the wires being twisted helically around the others and having smooth, uninterrupted, exterior surfaces throughout its length, impregnated insulating material surrounding each of said conductors, a lead covering surrounding the insulating material of each of said wires, a jute bedding between the three twisted conductors, a resilient steel strip wound helioally around the bending and a jute protective covering wound around the steel.
  • a heavy-current, ungirdled electric cable having greater flexibility, higher conductivity,

Landscapes

  • Insulated Conductors (AREA)

Description

C. CREM ER ELECTRIC CABLE June 5, 1934.
Filed March 13, 1929 w DM W Y-W Patented June 5, 1934 UNITED STATES PATENT OFFICE ELECTRIC CABLE Carl Cremer, Friedrichshagen, near Berlin, Germany Application March 13, 1929, Serial No. 346,506 In Germany September 20, 1928 3 Claims.
According to existing standards governing the manufacture of cables for heavy current, for twisted multiple core cables having copper crosssections exceeding ten square m. m., stranded con-' ductors composed of several twisted wires must be employed. A determining factor for this requirement was the circumstance that the twisted cables had to have a sufiicient flexibility to permit it to be easily laid. Now the experiments of the applicant have shown, that the flexibility of a cable depends not only on the nature of the crosssection of the conductor, but also particularly on the diameter of the lead covering whose resistance to bending rapidly increases with the diameter. Moreover, the flexibility is dependent also on the resistance which the twisted cores ofier to an axial displacement, that is on the friction of the strand surfaces. The greater or less stiffness. of the insulating layers, generally impregnated paper, is of proportionately less influence.
How large the factors are individually which determine the flexibility of a cable, is in practice of secondary importance, what matters is only the resulting flexibility of the complete cable. It has now been established by experiment that this total-flexibility of a twisted heavy current cable remains within normal limits even with the employment of relatively stiff conductors, if the remaining resistances to bending, in particular that of the lead covering, are suitably reduced.
According to the invention a multiple core cable is made of several intercoiled conductor cables each provided with a metal covering, whose individual conductors consist of one solid wire of over 10 sq. m. m. cross-section. The total flexibility of this cable is greater than. that of the normal cable with a common lead covering en-- closing all the cores. Because, in the first place, with the cable according to the invention, the total lead cross-sectionis smaller than that of a normal cable with girdle insulation and a common lead covering. In the second place, the resistance to bending of the lead coverings of the individual cores by reason of their considerably s aller diameter is, taken together, appreciably less than that of a corresponding cab le with girdle insulation. Thirdly, because the individual cores due to their smooth surfaces yield more readily to displacement upon each other.
The flexibility is further materially assisted in that with such a multiple core cable made of several single-core cables twisted together, the individual cores lie in plain helical paths with respect to one another.
Multicore cables with several insulated conductor-cores twisted together and each provided with a lead-covering are well known; but with conductors having cross-sections of over ten square millimeters the conductors always consisted of several stranded wires. The invention consists in the improvement, that in combination with this kind of multicore cables conductors are employed, which consist each of one solid wire.
The employment of solid wires as the conductors gives the further advantage that with the same effective cross-section the diameter of the conductor and with it the diameter of the cable is smaller. From this, a considerable economy in manufacture results through the saving of material and avoidance of thelabour of twisting stranded conductors. Moreover, as is known, the smooth surface of the solid conductor appreciably reduces the dielectric stress on the insulation in comparison with stranded conductors so that the cable is safer in operation.
Fig. 1 discloses a sectional view of the composite cable; and
Fig. 2 discloses a perspective view of the composite cable with portions broken away.
The drawing shows one constructional embodiment of the cable according to the invention. 1 are the solid conductors of a three core cable. 2 are the insulating layers, 3 the lead coverings, 4 is the usual inner jute layer or bedding, 5 the armouring, for example iron or steel strip or wire, and 6 the outer jute layer.
In the appended claims, the term ungirdled is used to exclude an outer, continuous, impervious metal sheath for the cable as a'whole, as for example lead sheaths wh ch are commonly used.
Having now particularly described and ascertaned the nature of my said invention, I declare that what I claim is:-- I
1. In an ungirdled electric cable, a plurality of main, conductor elements, each conductor consisting of a single wire having a smooth, uninterrupted exterior length and being above twentyfive square millimeters in cross section, impregnated insulatng material surrounding each of said conductors individually, said wire contacting said material at all points of the length of the wire and leaving no gaps between the wire and material, whereby the impregnating material is prevented from flowing out the ends of the cable and the d'electric stress is reduced, said insulating material being surrounded by a metal sheath, and the sheathed conductor elements being twisted together helically.
2. A heavy-current, ungirdled electric cable having greater flexibility, higher conductivity, and
lesser dielectric stress than a girdled cable of the same diameter, comprising three conductors, each consisting of a single, solid, unstranded wire greater than twenty-five square millimeters in cross-section, each of the wires being twisted helically around the others and having smooth, uninterrupted, exterior surfaces throughout its length, impregnated insulating material surrounding each of said conductors, a lead covering surrounding the insulating material of each of said wires, a jute bedding between the three twisted conductors, a resilient steel strip wound helioally around the bending and a jute protective covering wound around the steel.
3. A heavy-current, ungirdled electric cable having greater flexibility, higher conductivity,
CARL CREMER.
US346506A 1928-09-20 1929-03-13 Electric cable Expired - Lifetime US1961962A (en)

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
DE1961962X 1928-09-20

Publications (1)

Publication Number Publication Date
US1961962A true US1961962A (en) 1934-06-05

Family

ID=7794416

Family Applications (1)

Application Number Title Priority Date Filing Date
US346506A Expired - Lifetime US1961962A (en) 1928-09-20 1929-03-13 Electric cable

Country Status (1)

Country Link
US (1) US1961962A (en)

Similar Documents

Publication Publication Date Title
US1943087A (en) Electrical cable and method of manufacture
US3772454A (en) Torque balanced cable
CN107148656A (en) cable
US2386753A (en) Insulated electrical conductor and cable
US3264404A (en) Power transmission cable
US1948439A (en) Electric power cable
EP3244423A1 (en) Three core power cables with plastic armor
US2167098A (en) Strand-carried multiple conductor wire rope
GB2142468A (en) Multi-core oil-filled electric cable
US3364305A (en) Communication cable quad
US20150107868A1 (en) Water and gas tight stranded conductor and umbilical comprising this
US2066525A (en) Conductor
US1977787A (en) Three-conductor cable
US1961962A (en) Electric cable
US2147095A (en) Multiconductor cable
US2787653A (en) Electric cables
US3409734A (en) Telephone conductors with longitudinally wrapped and bonded paper tape insulation
US4275262A (en) Submarine cable
US2012126A (en) Submarine signaling cable
US1937054A (en) Oil-filled cable
US2120088A (en) Armored conductor
US1927845A (en) Submarine cable
US1821908A (en) Composite wire cable
US10839986B2 (en) Electrical conductor comprised of solid segments
US2212360A (en) Electrical cable