US1907744A - Rope making machine - Google Patents

Rope making machine Download PDF

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Publication number
US1907744A
US1907744A US563076A US56307631A US1907744A US 1907744 A US1907744 A US 1907744A US 563076 A US563076 A US 563076A US 56307631 A US56307631 A US 56307631A US 1907744 A US1907744 A US 1907744A
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Prior art keywords
wires
rope
dies
wire
layer
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US563076A
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William E Craig
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JOHN A ROEBLING'S SONS Co
ROEBLINGS JOHN A SONS CO
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ROEBLINGS JOHN A SONS CO
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    • DTEXTILES; PAPER
    • D07ROPES; CABLES OTHER THAN ELECTRIC
    • D07BROPES OR CABLES IN GENERAL
    • D07B3/00General-purpose machines or apparatus for producing twisted ropes or cables from component strands of the same or different material
    • D07B3/02General-purpose machines or apparatus for producing twisted ropes or cables from component strands of the same or different material in which the supply reels rotate about the axis of the rope or cable or in which a guide member rotates about the axis of the rope or cable to guide the component strands away from the supply reels in fixed position
    • D07B3/06General-purpose machines or apparatus for producing twisted ropes or cables from component strands of the same or different material in which the supply reels rotate about the axis of the rope or cable or in which a guide member rotates about the axis of the rope or cable to guide the component strands away from the supply reels in fixed position and are spaced radially from the axis of the machine, i.e. basket or planetary-type stranding machine

Definitions

  • This invention relates to machines for making wire rope or wire strand of that class in which a number of wire strands or wires are wound helically, usually on a metal or hemp core, and relates especially to that part of the mechanism in which the strands or wires are laid up on the core and the rope or rope strand closed.
  • the object of the invention is to provide an improved laying up and closing mechanism for multiple layer ropes or strands, in which a better control of the strand or wires may be secured, so as to enable the production of a rope of the characteristics desired and maintain the strands or wires.
  • Figures 1, 1A show a vertical machine of common type in diagrammatic sectional elevation, Figure 1A showing the lower or gearing portion of the machine, being on a larger scale than Figure 1;
  • Figure 2 is an enlarged plan of the laying up portion of the machine, looking downward from the line 2 of Figure 1;
  • Figure 3 is an enlarged vertical section on the line 3 of Figure 2.
  • the word wire will be used as including both wire and its strands, and the word rope asincluding both rope formed of strands and" strands formed of wires, the invention being equally applicable to both.
  • the flyer is shown as of common form, consisting of a rotating standard 10 carrying the spiders 11, in which are mounted the bobbin frames 12 carrying the bobbins 13, this flyer being shown as carrying at the top of the standard 10 the head 14 with inclined guides through which the wires w, w, w of the three layer rope shown pass with the core 3 to the squeezer 15 held in fixed position by the supports 16 and from which the finished rope X passes to the usual draw-off roll 17 and around guide roll 18 to the windup reel.
  • the flyer and bobbin frames are shown as driven by the usual planetary gearing from the driving shaft 19, which drives the flyer through gears 20, 21 and the bobbin frames through gears 22, 23,, 24, 25, so that the bobbin frames are rotated reversely during their revolution with the flyer, this reverse rotation being about one rotation to each revolution of the flyer and acting to prevent or regulate the torsion on the individual wires as usual insuch machines.
  • Any other suitable mounting and driving means for securing the required movement of the flyer and bobbin frames may be used, with the ,bobbin frames mounted either off center or axially relatively to the flyer as common in the art.
  • the inclined guides in the head 14 through which the wires pass to the dies a, a are preferably formed, as shown, by nozzles 0, one set of nozzles for each layer of wires, and these nozzles may be stationary or mounted to rotate and free to rotate or rotated positively in the head 14, and the dies a, a, 01 may be mounted free to rotate or rotated positively by any suitable means, if desired.
  • the dies (1, a, a areformed on at which the wires enter with surfaces rounded at the proper curve to form the wires as they reach the closing point and with the nozzles cto secure the characteristics desired in the finished rope.
  • the nozzles and dies will be positioned relatively to each other as desired, according to the characteristics of the rope to be made, and they'may be so positioned that the helices formed in the wires as they are laid up on the core will be permanently formed to produce dead lay rope and avoid or reduce tendency of the wires to untwist, as they do in the usual process of *laying up the wires on a wire rope core.
  • the wires'must be bent at suitable angles in passing over the nozzles a and into the dies a, a, a the angle and length of helix being determined by the lay desired in the completed rope.
  • the nozzles and dies may be so arranged as not to make the dead lay rope, but only control the wires to secure other characteristics desired in the finished rope.
  • the separate closing dies are especially important in connection with wlres varying in characteristics in the different layers.
  • the invention has been illustrated and described as applied to one of the common types of wire rope machines, in which the relative rotation between the core and wire.
  • wires of the inner layer or layers of wires slotted radially for the passage of the wires of the outer layer or layers.
  • '2 'In a multiple layer rope'making machine, the combination with the wire supply the side cally, and the guiding head through which the wires pass to the closing point of a closing die for each layer of wires, separate disks carrying the dies for the wires of the inner layer or layers of wires slotted radially for the passage of the wires of the outer layer or layers, and means for adjusting said disks to vary the distance between the dies and the distance between the dies and guiding head.

Description

y 9, 1933. w. E.v CRAIG 1,907,744
ROPE MAKING MACHINE Filed Sept. 16, 1931 2 Sheets-Sheet 1 INVENTbR BY ATTORNEYS May 9, 1933.
w. CRAIG ROPE MAKING MACHINE Filed Sept. 16, 1931 2 Sheets-Sheet 2 f /lllrllllllrllll///// I/l/Il/ Patented May 9 1933 UNITED STATES WILLIAM E. CRAIG, OF TRENTON, NEW JERSEY, ASSIGNOR T0 JOHN A. ROEBLDTGS PATENT OFFICE SONSYCOMPANY, OF TRENTON, NEW JERSEY, .A CORPORATION OF NEW JERSEY ROPE MAKING MACHINE This invention relates to machines for making wire rope or wire strand of that class in which a number of wire strands or wires are wound helically, usually on a metal or hemp core, and relates especially to that part of the mechanism in which the strands or wires are laid up on the core and the rope or rope strand closed.
The object of the invention is to provide an improved laying up and closing mechanism for multiple layer ropes or strands, in which a better control of the strand or wires may be secured, so as to enable the production of a rope of the characteristics desired and maintain the strands or wires.
in the condition required for the best service and greatest durability of the rope under its service conditions.
For a full understanding of the invention, a detailed description of a construction embodying all the features of the same in a preferred form will now be given in connection with the accompanying drawings forming a part of this specification, and the features forming the same than be specifically pointed out in the claims.
In the drawings, which show the invention applied to a wire rope machine of a common type:
Figures 1, 1A show a vertical machine of common type in diagrammatic sectional elevation, Figure 1A showing the lower or gearing portion of the machine, being on a larger scale than Figure 1;
Figure 2 is an enlarged plan of the laying up portion of the machine, looking downward from the line 2 of Figure 1; and
Figure 3 is an enlarged vertical section on the line 3 of Figure 2.
In the following description and claims, the word wire will be used as including both wire and its strands, and the word rope asincluding both rope formed of strands and" strands formed of wires, the invention being equally applicable to both.
Referring to the drawings, the flyer is shown as of common form, consisting of a rotating standard 10 carrying the spiders 11, in which are mounted the bobbin frames 12 carrying the bobbins 13, this flyer being shown as carrying at the top of the standard 10 the head 14 with inclined guides through which the wires w, w, w of the three layer rope shown pass with the core 3 to the squeezer 15 held in fixed position by the supports 16 and from which the finished rope X passes to the usual draw-off roll 17 and around guide roll 18 to the windup reel. The flyer and bobbin frames are shown as driven by the usual planetary gearing from the driving shaft 19, which drives the flyer through gears 20, 21 and the bobbin frames through gears 22, 23,, 24, 25, so that the bobbin frames are rotated reversely during their revolution with the flyer, this reverse rotation being about one rotation to each revolution of the flyer and acting to prevent or regulate the torsion on the individual wires as usual insuch machines. Any other suitable mounting and driving means for securing the required movement of the flyer and bobbin frames may be used, with the ,bobbin frames mounted either off center or axially relatively to the flyer as common in the art.
Dies a, a, a ,'are provided for the wires :0, w, m of the respective layers, through which dies the wires pass from the guides a to the squeezer 15, the die a thus acting to close the wires w on the core 3 die an acting to close the wires w on the wires :0 and the slotted radially so as to provide for passage of the wires :0, m through them in theproper position and on the proper angle,
these discs forming the supports 6, I) being adjustably held in position on adjusting screws 27 by nuts 28, so that the dies may be adjusted in position toward and from the head 14 and toward and from each other as desired. The inclined guides in the head 14 through which the wires pass to the dies a, a are preferably formed, as shown, by nozzles 0, one set of nozzles for each layer of wires, and these nozzles may be stationary or mounted to rotate and free to rotate or rotated positively in the head 14, and the dies a, a, 01 may be mounted free to rotate or rotated positively by any suitable means, if desired.
The dies (1, a, a areformed on at which the wires enter with surfaces rounded at the proper curve to form the wires as they reach the closing point and with the nozzles cto secure the characteristics desired in the finished rope. The nozzles and dies will be positioned relatively to each other as desired, according to the characteristics of the rope to be made, and they'may be so positioned that the helices formed in the wires as they are laid up on the core will be permanently formed to produce dead lay rope and avoid or reduce tendency of the wires to untwist, as they do in the usual process of *laying up the wires on a wire rope core. For this purpose, the wires'must be bent at suitable angles in passing over the nozzles a and into the dies a, a, a the angle and length of helix being determined by the lay desired in the completed rope. It will be understood, however, that the nozzles and dies may be so arranged as not to make the dead lay rope, but only control the wires to secure other characteristics desired in the finished rope. The separate closing dies are especially important in connection with wlres varying in characteristics in the different layers.
The invention has been illustrated and described as applied to one of the common types of wire rope machines, in which the relative rotation between the core and wire.
tion is not limited to the exact construction" and arrangement shown, but many modifications may be- 'made therein, While retaining the invention'defined by the claims.
' wires of the inner layer or layers of wires slotted radially for the passage of the wires of the outer layer or layers.
'2: 'In a multiple layer rope'making machine, the combination with the wire supply the side cally, and the guiding head through which the wires pass to the closing point of a closing die for each layer of wires, separate disks carrying the dies for the wires of the inner layer or layers of wires slotted radially for the passage of the wires of the outer layer or layers, and means for adjusting said disks to vary the distance between the dies and the distance between the dies and guiding head.
3. The combination with the rotating flyer head 14 having inner and outer guide passages for the wires of inner and outer wire layers, of dies 0:, a, etc. for the inner and outer layers of wires, disks 7), 6 etc. carrying said dies and having radial slots for the passage of the wires of the outer layer or layers, and supports for said disks mounted on the tlyer head outside the wires and adjustable to vary the distance between said dies 'and between the dies and flyer head.
4. In a machine for making multiple layer dead lay wire rope, the combination with the wire supply and means for relatively rotating the wire supply and rope to lay the wires up helically, of a closing die for each Wire supply and means for relatively rotating the wire supply .and rope to lay the wires up helically, of a closing d e foreach layer of wires, 'bearmg surfaces for 'each 'layer of wires over which the wires are led directly to the die for that layer and bent at such an angle as to form permanent helices in the wire, and means for adjusting the dies to vary the distance between the dies.
. 6. In a machine for making multiple layer dead lay wire rope, the combination with the wire supply and means for relatively rotating the wire supply and rope to lay the wires up helically, of a closing die for each layer of Wires, bearing surfaces for each layer of wires over which the wires are led directly to the die for that layer and bent at such an angle as to form permanent helices in the wire, and means for adjusting the dies to vary the distance between the dies and between the dies and said bearing surfaces.
In testimony whereof, I have hereunto set and means for relatively rotating the wire- 3 supply and rope to lay the wires up heli-
US563076A 1931-09-16 1931-09-16 Rope making machine Expired - Lifetime US1907744A (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2983182A (en) * 1957-07-17 1961-05-09 Samuel M Shobert Apparatus for fabricating reinforced plastic tubing
US3201930A (en) * 1963-05-13 1965-08-24 Stirling James Rope strand and method for making same
US3234721A (en) * 1960-02-27 1966-02-15 Carter Ben Richard Wrapping machine for reinforcing hose
DE1255001B (en) * 1961-08-19 1967-11-23 Glanzstoff Ag Device for spinning a rope core made of synthetic threads

Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US2983182A (en) * 1957-07-17 1961-05-09 Samuel M Shobert Apparatus for fabricating reinforced plastic tubing
US3234721A (en) * 1960-02-27 1966-02-15 Carter Ben Richard Wrapping machine for reinforcing hose
DE1255001B (en) * 1961-08-19 1967-11-23 Glanzstoff Ag Device for spinning a rope core made of synthetic threads
US3201930A (en) * 1963-05-13 1965-08-24 Stirling James Rope strand and method for making same

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