US2147095A - Multiconductor cable - Google Patents

Multiconductor cable Download PDF

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US2147095A
US2147095A US37571A US3757135A US2147095A US 2147095 A US2147095 A US 2147095A US 37571 A US37571 A US 37571A US 3757135 A US3757135 A US 3757135A US 2147095 A US2147095 A US 2147095A
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conductors
cable
conductor
sheath
insulated
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US37571A
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Hochstadter Martin
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    • HELECTRICITY
    • H01ELECTRIC ELEMENTS
    • H01BCABLES; CONDUCTORS; INSULATORS; SELECTION OF MATERIALS FOR THEIR CONDUCTIVE, INSULATING OR DIELECTRIC PROPERTIES
    • H01B9/00Power cables

Definitions

  • Such cables are known in the art under thel name of SL-type Ycables and up to the present they have been made from singles with a circular cross-section.
  • any imperfections or impurities existing in the lead, or other material composing the sheath are liable to result in damage to the sheath.
  • the binding or armoring will be loosened from the sheath and thereby lose its desired effect or will be broken or pressed into the lead according to the direction of the twisting relatively to that of the taping.
  • the object of this invention is to avoid such damage tothe sheath and binding or armoring 40 of each single core cable by avoiding the twisting of the sheathed cables about their own respective axes.
  • Figure l ⁇ is a perspective view, partly broken away, of a section of the cable.
  • Figure 2 is a similar view, illustrating only one of the single-core cables, prior to the assembly into a multi-core cable.
  • the three conductors I of the three-core cable shown in Figure 1 are each constructed of a number of metallic-wires or strands whichvare helically twisted, it being, however, understood that they 15 may also consist of one solid wire.
  • the twisting of this strand, or solid wire is effected according to one of the methods well-known in the art.
  • the conductor shown here as being of oval cross-section, is provided with a 2l helical pitch, which is so calculated with reference to the pitch of assembly of the three cables that the conductor, when insulated and sheathed, will be of such configuration and shape that it will automatically take its place in the assembly 25 without further twisting round its own axis.
  • Each such pre-twisted conductor I is then provided with paper taping or other insulation 2, and if desired with 'an electric shield, in the form of a surface metallization, a tape of metal, conducting 30 paper or otherwise, such shield or tape being perforated or not, and wound with overlap or with intervals between turns.
  • 'an electric shield in the form of a surface metallization, a tape of metal, conducting 30 paper or otherwise, such shield or tape being perforated or not, and wound with overlap or with intervals between turns.
  • Such pre-twisted conductors and their manufacture are known per se in the art. It is also 35 well known how to strand such pre-twisted insulated conductors together to a multi-core cable, which is then impregnated and finally provided with a leadsheath and armor.
  • the pre- 40 ⁇ twisted insulated conductors are provided with a lead sheath 3 each separately, before a plurality of these lead-sheathed twisted conductors, i. e. pre-twisted singles are stranded together to a multi-core SL-type cable.
  • the'spaces 4 may be provided with fillers of insulating material or they may be left free, or distance pieces, in the form of wire spirals, tubes, etc., may be inserted therein.
  • the three singles as assembled, are held together in any well known manner, for instance, by bindings or wrappings of textile material, metal tapes or wires.
  • a sheath of lead or other material may also be applied to enclose the stranded separately lead-sheathed cores and on this outer sheath any known protection, bedding and armoring may be employed.
  • a metal tape 5 of steel or other suitable material is shown to be wound round the assembled conductors.
  • the outer protecting sheath or armor may be circular or non-circular, the latter form being shown in Figure 1.
  • the cores are shown to be stranded together, with the lead sheaths 3 touching each other. But, of course, any known wrapping or other protection, without or combined with a reinforcing armor in the form of a metal tape or otherwise may be applied on these separately lead-sheathed cores, before they are stranded t0- gether.
  • the metallization of the surface of the insulated cores is not shown in Figures 1 and 2, as it is not essential for the invention, and it may be applied or not before the lead sheathing of the cores, according to the particular purpose.
  • the invention is no-t limited to pluralities of single conductors of the in different known manners; for instanceQby means of eccentric insulating layers or spacings, by a crushing of a circular shaped insulation to make it oval, by a non-uniform thickness of the lead, or otherwise.
  • the material and the manner of carrying out such impregnation is immaterial with regard to this invention; the impregnating process may take place in any of the well known manners before or after lead sheathing, after the assembly or even after the laying of the cable.
  • each individual conductor which comprises preshaping each individual conductor to a helical form and in a configuration suitable for the helical assembly of the several conductors, applying insulation in a non-circular form to each individual conductor, applying a continuous water-tight extruded metallic sheathing to the individual preshaped non-circular insulated conductors, assembling the sheathed conductors helically in accordance with the preL shaped configuration thereof to form a cable substantially devoid of internal torsional stresses.
  • a multiple-conductor cable comprising a plurality of insulated single conductors -of noncircular form, each insulated conductor being pretwisted to helical form so that the plurality of conductors may be laid together helically around the cable axis, and a continuous extruded metal sheath applied to each pretwisted insulated conductor, the individual sheathed conductorsbeing free of torsional twist on their individual axes.
  • a multiple-conductor cable comprising a plurality of insulated single conductors, each conductor being pretwisted to helical form so that the plurality of conductors may be laid together helically around the cable axes, and a continuous extruded metal sheath of non-circular form applied to each pretwisted insulated conductor, the individualsheathed conductors being free of torsional twist on their individual axes.
  • a multiple-conductor cable comprising a plurality of insulated single conductors, each conductor being pretwisted to helical form so that the plurality of conductors may be laid together helically around the cable axis, and a continuous extruded metal sheath of non-circular form applied to each pretwisted insulated conductor, the individual sheathed conductors being free of torsional twist on their individual axes, and a metal protective covering for said sheathed conductor.

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Description

Feb. 14, 1939. M HOCHSTADTER 2f47095 MULT ICONDUCTOR CABLE Filed Aug. 25, 1935 Patented Feb. 14, 1939 ,UNITED STATES PATENT OFFICE MULTICONDUCTOR CABLE Martin Hochstadter, Brussels, Belgium Application August 23, 1935, Serial No. 37,571 In Great Britain January 17, 1935' 4 Claims.
Such cables are known in the art under thel name of SL-type Ycables and up to the present they have been made from singles with a circular cross-section.
Recently, however, it has become desirable for severalelectricalv engineering purposes, to make ythe cross-section of each single of vsuch cables, non-circular, for instance, sector shaped or oval.
Now, while the stranding of circular shaped singles to a multi-core cable oiers no particular dimculty, the stranding of such cables composed of non-circular singles is more difficult.
The drawbacks of such a cable consist mainly in the difficulties which arise from the necessary twisting of each single round its axis during the stranding and from the damage which is thereby done to the insulation and still more to the sheath and the binding or armor applied upon the same. l
If the sheath and the armoring, or binding tapes round the same, of such an oval single are twisted during the stranding together of the single cables, then any imperfections or impurities existing in the lead, or other material composing the sheath, are liable to result in damage to the sheath. At the same time the binding or armoring will be loosened from the sheath and thereby lose its desired effect or will be broken or pressed into the lead according to the direction of the twisting relatively to that of the taping.
The object of this invention is to avoid such damage tothe sheath and binding or armoring 40 of each single core cable by avoiding the twisting of the sheathed cables about their own respective axes.
Other objects and advantages will become apparent to those skilled in the art from the following description of a preferred practical embodiment of the invention. It is to be understood that the invention may assume other forms according to the extent to which the various advantages are desired, and as determined by the particular class of service to which the cable is to be put, the availability of materials of various kinds and other similar factors, without in any way departing from the scope of the invention as defined in the appended claims. The invention is based on the discovery that it is possible and advantageous to apply the sheath and also the binding or armor, if any, to a pretwisted insulated conductor.
Referring to the accompanying drawing illustrating a preferred mode of carrying the invention into eiTect:
Figure l` is a perspective view, partly broken away, of a section of the cable, and
Figure 2 is a similar view, illustrating only one of the single-core cables, prior to the assembly into a multi-core cable.
The three conductors I of the three-core cable shown in Figure 1 are each constructed of a number of metallic-wires or strands whichvare helically twisted, it being, however, understood that they 15 may also consist of one solid wire. The twisting of this strand, or solid wire, is effected according to one of the methods well-known in the art. By this pre-twisting, the conductor, shown here as being of oval cross-section, is provided with a 2l helical pitch, which is so calculated with reference to the pitch of assembly of the three cables that the conductor, when insulated and sheathed, will be of such configuration and shape that it will automatically take its place in the assembly 25 without further twisting round its own axis. Each such pre-twisted conductor I is then provided with paper taping or other insulation 2, and if desired with 'an electric shield, in the form of a surface metallization, a tape of metal, conducting 30 paper or otherwise, such shield or tape being perforated or not, and wound with overlap or with intervals between turns.
Such pre-twisted conductors and their manufacture are known per se in the art. It is also 35 well known how to strand such pre-twisted insulated conductors together to a multi-core cable, which is then impregnated and finally provided with a leadsheath and armor.
According to thisinvention, however, the pre- 40 `twisted insulated conductors are provided with a lead sheath 3 each separately, before a plurality of these lead-sheathed twisted conductors, i. e. pre-twisted singles are stranded together to a multi-core SL-type cable. 45
It has been found that the passing of the pretwisted insulated conductors through the lead press or other machine to cover them with a Water-tight sheathing can be carried out, in spite of the particular corkscrew-like shape of these 50 conductors. Up to a certain amount of deviation of the oval or sector shape from the circular form, it is even possible to use a circular shaped die-box, without rotating the same or the conductor. It is only necessary to arrange the die .2S
` have, when assembled in the cable according to Figure l.
In assembling, all the known arrangements and precautions may be used to vary the speed of the machine, to suitably shift the angular position of the individual single-core drums and otherwise, in order to adapt the pitch of the stranding to the pitch of the single-cores. During the assembly, the'spaces 4 may be provided with fillers of insulating material or they may be left free, or distance pieces, in the form of wire spirals, tubes, etc., may be inserted therein.
The three singles as assembled, are held together in any well known manner, for instance, by bindings or wrappings of textile material, metal tapes or wires. A sheath of lead or other material may also be applied to enclose the stranded separately lead-sheathed cores and on this outer sheath any known protection, bedding and armoring may be employed. In Figure 1, a metal tape 5 of steel or other suitable material is shown to be wound round the assembled conductors.
The outer protecting sheath or armor may be circular or non-circular, the latter form being shown in Figure 1.
In Figure l, the cores are shown to be stranded together, with the lead sheaths 3 touching each other. But, of course, any known wrapping or other protection, without or combined with a reinforcing armor in the form of a metal tape or otherwise may be applied on these separately lead-sheathed cores, before they are stranded t0- gether.
The metallization of the surface of the insulated cores is not shown in Figures 1 and 2, as it is not essential for the invention, and it may be applied or not before the lead sheathing of the cores, according to the particular purpose.
It is to be understood that the invention is no-t limited to pluralities of single conductors of the in different known manners; for instanceQby means of eccentric insulating layers or spacings, by a crushing of a circular shaped insulation to make it oval, by a non-uniform thickness of the lead, or otherwise.
If the insulation of the single core cables is to be impregnated, the material and the manner of carrying out such impregnation is immaterial with regard to this invention; the impregnating process may take place in any of the well known manners before or after lead sheathing, after the assembly or even after the laying of the cable.
What I claim is:
1. The method of manufacturing multipleconductor cables with separately insulated and sheathed conductors laid up in helical form,
which comprises preshaping each individual conductor to a helical form and in a configuration suitable for the helical assembly of the several conductors, applying insulation in a non-circular form to each individual conductor, applying a continuous water-tight extruded metallic sheathing to the individual preshaped non-circular insulated conductors, assembling the sheathed conductors helically in accordance with the preL shaped configuration thereof to form a cable substantially devoid of internal torsional stresses.
2 1. A multiple-conductor cable comprising a plurality of insulated single conductors -of noncircular form, each insulated conductor being pretwisted to helical form so that the plurality of conductors may be laid together helically around the cable axis, and a continuous extruded metal sheath applied to each pretwisted insulated conductor, the individual sheathed conductorsbeing free of torsional twist on their individual axes.
3. A multiple-conductor cable comprising a plurality of insulated single conductors, each conductor being pretwisted to helical form so that the plurality of conductors may be laid together helically around the cable axes, and a continuous extruded metal sheath of non-circular form applied to each pretwisted insulated conductor, the individualsheathed conductors being free of torsional twist on their individual axes.
4. A multiple-conductor cable comprising a plurality of insulated single conductors, each conductor being pretwisted to helical form so that the plurality of conductors may be laid together helically around the cable axis, and a continuous extruded metal sheath of non-circular form applied to each pretwisted insulated conductor, the individual sheathed conductors being free of torsional twist on their individual axes, and a metal protective covering for said sheathed conductor.
MARTIN HOCHSTADTER.
US37571A 1935-01-17 1935-08-23 Multiconductor cable Expired - Lifetime US2147095A (en)

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Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2697867A (en) * 1954-12-28 Electric cable
US3441660A (en) * 1966-07-12 1969-04-29 Gen Cable Corp Solid aluminum conductor insulated with cross-linked polyethylene
US3636234A (en) * 1969-12-04 1972-01-18 United States Steel Corp Communication cable
US4674822A (en) * 1984-11-21 1987-06-23 Virginia Plastics Company Multi-conductor shielded cable
US4816614A (en) * 1986-01-20 1989-03-28 Raychem Limited High frequency attenuation cable
US4822956A (en) * 1986-08-11 1989-04-18 American Telephone And Telegraph Company Coaxial cable
WO2008027387A3 (en) * 2006-08-30 2008-08-07 Afl Telecommunications Llc Downhole cables with both fiber and copper elements

Cited By (15)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2697867A (en) * 1954-12-28 Electric cable
US3441660A (en) * 1966-07-12 1969-04-29 Gen Cable Corp Solid aluminum conductor insulated with cross-linked polyethylene
US3636234A (en) * 1969-12-04 1972-01-18 United States Steel Corp Communication cable
US4674822A (en) * 1984-11-21 1987-06-23 Virginia Plastics Company Multi-conductor shielded cable
US4816614A (en) * 1986-01-20 1989-03-28 Raychem Limited High frequency attenuation cable
US4822956A (en) * 1986-08-11 1989-04-18 American Telephone And Telegraph Company Coaxial cable
WO2008027387A3 (en) * 2006-08-30 2008-08-07 Afl Telecommunications Llc Downhole cables with both fiber and copper elements
US20100008631A1 (en) * 2006-08-30 2010-01-14 Afl Telecommunications, Llc Downhole cables with both fiber and copper elements
US8295665B2 (en) 2006-08-30 2012-10-23 Afl Telecommunications Llc Downhole cables with both fiber and copper elements
AU2007290525B2 (en) * 2006-08-30 2013-08-15 Afl Telecommunications Llc Downhole cables with both fiber and copper elements
US9069148B2 (en) 2006-08-30 2015-06-30 Afl Telecommunications Llc Downhole cables with both fiber and copper elements
US9589706B2 (en) 2006-08-30 2017-03-07 Afl Telecommunications Llc Downhole cables with both fiber and copper elements
US9941031B2 (en) 2006-08-30 2018-04-10 Afl Telecommunications Llc Downhole cables with both fiber and copper elements
US10297369B2 (en) 2006-08-30 2019-05-21 Afl Telecommunications Llc Downhole cables with both fiber and copper elements
US10784023B2 (en) 2006-08-30 2020-09-22 Afl Telecommunications Llc Downhole cables with both fiber and copper elements

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