KR101793402B1 - Cable stranding apparatus - Google Patents

Abstract

The present invention relates to a cable twisting apparatus, and more specifically, to a cable twisting apparatus comprising: a rotor rotating at a predetermined speed in one direction; a guide portion disposed on the rear side of the rotor to have a conical shape, guiding stranded cables supplied from the rotor and rotating by interlocking with the rotor to twist the stranded cables around a core cable; dies forming a twisting point (S) on the core cable where the stranded cables are arranged; and a pressurization portion including a first roller portion having a plurality of rollers for pressurizing the twisted cable in a first direction and a second roller portion disposed on the rear side of the first roller portion to pressurize the twisted cable in a direction perpendicular to the first direction. The cable twisting apparatus of the present invention has correction roller portions which respectively pressurize the twisted cable in vertical directions, thereby suppressing restoring force of a strand of the twisted cable to prevent the twisted cable after the twisting point from getting loose. At the same time, the surface quality of the twisted cable can be kept uniform.

Description

[0001] Cable stranding apparatus [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a cable twisted pair cable, and more particularly, to a cable twisted pair cable in which a single stranded cable is twisted in a plurality of strands like a stranded wire to produce a cable such as electric wire, power wire, insulated wire, To a cable twisted pair.

Messenger wire installed on the catenary line is a wire that stands on the top of the curtain curve and keeps it horizontal at the same height while bundling it with a hanger or dropper line. The wire bundle and the electric wire are supported by a movable bracket provided at regular intervals, the wire bundle being supported by supporting brackets supported by the movable bracket, The curtain line curved downward is maintained by the curved line, and the catenary line is kept horizontal by the dropper line installed at regular intervals. These joint lines or dropper lines are used as national infrastructure, and Korea Railway Authority has specified separate specification or standard.

In order to manufacture a wire or a drawer wire, a drawn single strand strand is subjected to a stranding process in which the strand is twisted into a plurality of strands like a spike. This stranded cable is also called a stranded cable.

Common cable stranding method is generally used for making copper wire with high ductility. It is an alloy of magnesium with high ductility for strengthening stiffness and strength. Fresh cable is highly resilient, Lt; / RTI > It is difficult to manufacture CuMg wire or dropper wire by the conventional cable stranding method.

To solve such a problem, Korean Patent No. 10-1566830 (hereinafter referred to as Prior Art 1), which is a patent application and registered by the present applicant, can be mentioned.

Prior Art 1 is characterized in that a heating unit is provided in order to reduce the restoring force for unraveling the twisted structure at the time of twisting of a fresh cable made of an alloy of magnesium and the like mixed. However, control of restoring forces other than the artificial heating method may affect the surface quality of the twisted cable, requiring more rigorous control.

The present invention provides a cable stranding apparatus capable of controlling the restoring force of an alloy mixed with magnesium or the like without being subjected to a separate heating step so as not to be loosened even after the yarn cutting point.

A cable twisted pair cable according to the present invention includes: a rotor rotating at a constant speed in one direction; A guiding part provided at a rear end of the rotor in a conical shape to guide a strand cable supplied from the rotor and to rotate the strand cable in conjunction with the rotor to twist the strand cable on the core cable; An aggregate die for forming a twist point S on which the strand cables are gathered and arranged on the core cable; And a plurality of rollers for pressing the twisted-pair cable in a first direction; a second roller provided at a rear end of the first roller portion to press the twisted-pair cable in a direction perpendicular to the first direction; And a pressing portion having a portion.

The first roller portion may include a plurality of first arrangement rollers arranged at regular intervals along a traveling direction of the twisted-pair cable; And a second arranging roller arranged to be interlaced between the first arranging rollers.

And a first interval adjusting unit for bringing the first arrangement rollers and the second arrangement rollers closer or spaced in the first direction.

The first interval adjusting unit may further include: a first arrangement roller support unit fixed to the first arrangement rollers so as to be rotatable; A second arrangement roller support portion in which the second arrangement rollers are rotatably fixed; And a second arrangement roller support portion fixed to the first arrangement roller support portion and the second arrangement roller support portion, respectively, and the length between the first arrangement roller support portion and the second arrangement roller support portion is variable, And a first length variable portion that adjusts the interval of the first length variable portion.

The first length variable portion may include a first lever that is variable in length by a screw fastening method and rotates the first length variable portion and reduces or expands the length of the first length variable portion according to the rotation direction .

The second roller portion may include a plurality of third arrangement rollers arranged at predetermined intervals along the traveling direction of the twisted-pair cable. And a fourth arrangement roller arranged to be staggered between the third arrangement rollers, wherein the third arrangement roller and the fourth arrangement roller are arranged in a direction perpendicular to the first arrangement roller and the second arrangement roller .

And a second interval adjusting unit for moving the third arrangement roller and the fourth arrangement rollers in the second direction.

The second gap adjusting portion may include a third arrangement roller support portion in which the third arrangement rollers are rotatably fixed; A fourth arrangement roller support portion in which the fourth arrangement rollers are rotatably fixed; And the third arrangement roller support portion and the fourth arrangement roller support portion, respectively, and the length between the third arrangement roller support portion and the fourth arrangement roller support portion is variable, and the distance between the third arrangement roller and the fourth arrangement roller And a second length variable portion that adjusts the interval of the second length variable portion.

The second length variable portion may include a second lever that is variable in length by a screw fastening method, rotates the second length variable portion, and reduces or expands the length of the second length variable portion according to the rotation direction .

A connection bridge connecting the rotational center axes of the rotor and the guide portion to each other; And the core cable can be supplied through the hollow of the connection bridge.

And a cable guide portion for guiding a stranded cable strand between the guide portion and the aggregate dice,

Wherein the cable guiding portion includes: an interlocking tube rotated in association with the guide portion; And an induction rib provided along the outer periphery of the peristaltic tube and formed with a tool through which the stranded cable penetrates.

The cable twisted pair cable according to the present invention has an adjustment roller unit that presses the twisted cable strands in the vertical direction to control the restoring force of the twisted cable strands, It is possible to obtain an effect of uniformly obtaining the surface quality of the substrate.

1 is a schematic diagram showing a cable twisted pair apparatus according to an embodiment of the present invention.
2 is a perspective view showing a rotor, a guide portion, and a collective dice according to an embodiment.
3 is a perspective view showing an embodiment in which a cable guide portion is further added to the embodiment of FIG.
4 is a perspective view showing a cable guide according to an embodiment.
5 is a schematic diagram illustrating a twisted-pair cable made by a twisted-pair cable according to an embodiment;
FIGS. 6 and 7 are a plan view and a front view, respectively, showing a press portion including a first roller portion and a second roller portion according to an embodiment.
FIGS. 8 and 9 are a plan view and a front view, respectively, for explaining a function of adjusting the spacing between the first roller portion and the second roller portion according to an embodiment.
FIG. 10 is a schematic front view for explaining a process in which a twisted cable is passed through a pressing portion according to the embodiment of FIGS. 6 and 7. FIG.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. In the absence of special definitions or references, the terms used in this description are based on the conditions indicated in the drawings. The same reference numerals denote the same members throughout the embodiments. For the sake of convenience, the thicknesses and dimensions of the structures shown in the drawings may be exaggerated, and they do not mean that the dimensions and the proportions of the structures should be actually set.

In particular, the terms shear, rear end, etc. described below are used to refer to the direction in which the core cable and the twisted cable advance in the stranding process. The shear end is a point where a relatively linear process is performed, . For example, the front end side of the collective dice 400 in FIG. 1 means a point where the twisted cable enters, and the rear end side of the collective dice 400 means a point where the twisted-pair cable is discharged.

A cable twisted pair cable according to an embodiment will be described with reference to FIG. 1 is a schematic diagram showing a cable twisted pair apparatus according to an embodiment of the present invention.

The cable twisted pair cable according to this embodiment is a device for manufacturing twisted twisted-pair cable 30 as a bundle of twisted strands of a single stranded cable.

The cable twisting device includes a rotor 100, a connection bridge 200, a guide 300, an assembly die 400, pushers 500 and 600, a measuring roller 700 and a pull roller 800. [ And the like.

The rotor 100 rotates at a constant speed in one direction with respect to the central axis, and supplies the stranded cable 20 to the continuous yarn point formed on the front end side of the collect dice 400. The guide portion 300 is connected to the rear end side of the rotor 100 and rotates together with the rotor 100. The guide portion 300 functions to guide the strand cable supplied from the rotor 100 so as not to be entangled.

The gathering dice 400 form a twist point so that a stranded cable wound on the outer circumferential surface of the core cable 10 can be arranged by forming a through-hole.

On the other hand, the twisted-pair cable 30 is used as a bundle wire or a dropper wire according to standard specifications. That is, the wire or dropper wire to which the present invention is applied may be formed of CuMg material for the purpose of improving strength and rigidity. However, strength and stiffness increase with the inclusion of magnesium, while the stability of the twist structure to be loosened during twisting increases. The pushing portions 500 and 600 prevent the twisted structure of the twisted-pair cable 300 from being loosened by the restoring force.

The pressing portions 500 and 600 include a first roller portion 500 and a second roller portion 600. Each of the pressing portions 500 and 600 has a plurality of rollers, and functions to press the twisted-pair cable passing through from both sides. At this time, the first roller unit 500 and the second roller unit 600 press the twisted-pair cable 30 in a direction perpendicular to the direction of the arrow, respectively, thereby preventing the stranded cable wound around the outer circumferential surface of the core cable 10 from being released by the restoring force .

The pressurizing portions 500 and 600 can obtain the effect of increasing the surface quality of the twisted cable 30 and the efficiency of the manufacturing process by canceling the restoring force of the cable due to the magnesium contained therein without separately providing the heating portion.

The specific configuration and function of the pressing portions 500 and 600 will be described later in detail.

The measuring roller 700 is a roller for measuring the degree to which the twisted cable 30 advances in the feeding direction. The pull roller 800 provides a pulling force on the twisted cable 30. The twisted cable 30 is pulled by the pull roller 800 so that the core cable 10 and the stranded cable are moved to the twisting point S. A take-up roller (not shown) is provided at the rear end side of the pull roller 800. The take-up roller winds up the stranded cable 30 traveling through the pull roller 800 and accommodates it.

Hereinafter, each of the main components will be described in detail.

2 to 5, a rotor, a guide portion, an assembly dice, and a cable guide portion according to an embodiment will be described. FIG. 2 is a perspective view showing a rotor, a guide portion, and a collective dice according to an embodiment, and FIG. 3 is a perspective view showing an embodiment in which a cable guide portion is further added to the embodiment of FIG. FIG. 4 is a perspective view showing a cable guide according to an embodiment, and FIG. 5 is a schematic view showing a twisted-pair cable manufactured by a cable twisted-pair cable according to an embodiment.

The rotor 100 is formed in a cylindrical shape. The rotor 100 allows the strand cable 20 to be unwound from a spool (not shown) while rotating at a constant speed in one direction, and the wound strand cable 20 is supplied to the twisting point S. At this time, the strand cable 20 is supplied through a plurality of supply ports 110 formed along the rear surface side front portion of the rotor 100.

Since the strand cable 20 is supplied through the rear end side of the rotor 100 and the rotor 100 rotates at this time, the stranded cable 20 is prevented from being entangled itself before forming the twisted- A circular support frame 120 for guiding and supporting the stranded cable 20 is provided.

The connection bridge 200 is connected so as to project from the rotational center axis of the rotor 100 to the rear end side. The guide portion 300 is connected to the rear end of the connection bridge 200 so that the rotational center axes of the rotor 100 and the guide portion 300 are connected to each other. The connection bridge 200 is formed in a cylindrical shape of the hollow 210 (see FIG. 1). The core cable 10 is fed through the hollow 210 of the connection bridge 200 in the advancing direction P1 (see Fig. 1).

The guide portion 300 is provided at the rear end side of the rotor 100 so as to have a conical shape. The guide part 300 is connected to the rotor 100 by the connection bridge 200 as described above. The guide portion 300 guides the strand cable 20 supplied from the rotor 100 to be supplied to the twisting point S without being tangled with each other.

Since the guide portion 300 guides the stranded cable 20 to be gathered on the outer circumferential surface of the core cable 10 at the twist point S, the guide portion 300 is formed in a conical shape desirable. In addition, it is preferable that the guide part 300 is provided with a plurality of grooves so that the friction between the guide part 300 and the strand cable 20 provided to the twisted yarn point S is reduced and smooth movement thereof occurs.

On the other hand, the bundle dies 400 form a twist point S by arranging the strand cables 20 on the core cable 10. The stranded cable 30 having passed through the set dice 400 is formed in a structure in which a stranded cable is spirally twisted on the outer circumferential surface of the core cable.

3, the cable guiding unit 900 may further include a cable guiding unit 900 as shown in FIG. The cable guide portion 900 functions to allow the strand cable 20 passed through the guide portion 300 to be smoothly stranded on the core cable 10. [ The cable guide portion 900 is provided between the guide portion 300 and the assembly die 400.

The cable guide portion 900 prevents the stranded cable 20 from being arranged in a twisted manner on the core cable 10 in a defective state and performs a function of primarily restraining the restoring force of the stranded cable 20. [

Referring to FIG. 4, the cable guide portion 900 includes an interconnecting pipe 910 and a guide rib 920. The interlocking pipe 910 rotates in conjunction with the guide part 300. The induction rib 920 is provided along the outer periphery of one end of the interlocking pipe 910. The guide rib 920 is formed in a disk shape, and a guide tool 921 is formed around the guide pipe 910 in the direction of the central axis of the guide pipe 910. The oil tool 921 is accommodated in such a manner that the strand cable supplied from the guide portion toward the collecting dice is penetrated. The oil tool 921 is formed to correspond to the number of the stranded cables 20.

Referring to FIG. 5, according to the present invention, the cable twisting process described above can be repeatedly performed several times to manufacture a twisted cable 30 having a multi-layer structure. FIG. 5 is a view illustrating an example of a twisted-pair cable manufactured by repeating the twisting process according to an embodiment of the twisted-pair cable. FIG. The twisted wire (A) consists of a core cable (10) and a stranded cable (20) stranded on the core cable (10).

In the case of performing the second twisted wire process, the twisted cable A serves as a core cable, and the twisted wire process is performed. Finally, another twisted wire B becomes a stranded cable twisted on the twisted cable A. In the third twisting process, the twisted cable B serves as a core cable, and the twisted cable C becomes a stranded cable twisted on the twisted cable B.

The twisted cable can have excellent strength and rigidity when the twist directions in the twisted wire process are different from each other while performing the iterative twisted wire process.

Referring to Figs. 6 to 10, the pressing portion (the first roller portion and the second roller portion) according to the embodiment will be described. FIGS. 6 and 7 are a plan view and a front view, respectively, showing a press portion including a first roller portion and a second roller portion according to an embodiment, and FIGS. 8 and 9 are views showing a first roller portion and a second roller portion, respectively, And FIG. 10 is a schematic front view for explaining a process of passing a push portion according to the embodiment of FIGS. 6 and 7 through a twisted-pair cable.

Referring to FIGS. 6 and 7, the pressing portion includes a first roller portion 500 and a second roller portion 600. The first roller unit 500 includes a plurality of rollers 511 and 521 for pressing the twisted-pair cable in the first direction, in the present embodiment, in the horizontal direction. The second roller portion 600 includes a plurality of rollers 611 and 621 for pressing the twisted-pair cable in a second direction perpendicular to the first direction, in this embodiment, a vertical direction.

Thus, the first roller unit 500 and the second roller unit 600 press the twisted-pair cable passing in a direction perpendicular to the first and second roller units 500 and 600, thereby preventing the twisted-pair cable from being released by the restoring force.

Specifically, the first roller portion 500 includes a first arrangement roller 511, a second arrangement roller 521, and a first gap adjusting portion 515, 530 and the like.

The first arrangement rollers 511 are arranged at a plurality of intervals along the progressive wave of the twisted cable. The second arrangement rollers 521 are spaced apart from the first arrangement rollers 511 by a predetermined distance and are arranged to be staggered at corresponding positions between the first arrangement rollers.

The first interval adjusting unit may include a first arrangement roller support unit 510, a second arrangement roller support unit 520, a first arrangement roller support unit 520, a second arrangement roller support unit 520, A length variable portion 515 and a first lever 530. [ The first gap adjusting unit brings the first arranging roller 511 and the second arranging roller 521 close to each other or horizontally.

The first arrangement rollers 511 are rotatably fixed to the first arrangement roller support portion 510 and the second arrangement rollers 521 are rotatably fixed to the second arrangement roller support portion 520.

The first length variable portion 515 is fixed to the first arrangement roller support portion 510 and the second arrangement roller support portion 520 and is disposed between the first arrangement roller support portion 510 and the second arrangement roller support portion 520 The distance between the first arrangement roller 511 and the second arrangement roller 521 can be adjusted. The length of the first length variable portion 515 can be varied by, for example, a screw fastening method. However, the present invention is not limited to this, and a hydraulic cylinder or the like may be used.

The first lever 530 can reduce or extend the length of the first length variable portion 515 according to the rotation direction by rotating the first length variable portion 515 as shown in Figs. 8 and 9 . When the length of the first length variable portion 515 is reduced, the horizontal interval between the first arrangement roller 511 and the second arrangement roller 521 is narrowed, and the length of the first length variable portion 515 The horizontal spacing between the first arrangement roller 511 and the second arrangement roller 521 is widened.

Meanwhile, the second roller portion 600 includes a third arrangement roller 611, a fourth arrangement roller 621, and a second gap adjusting portion 615, 630 and the like.

The third arrangement rollers 611 are arranged at a plurality of intervals along the progressive wave of the twisted cable. The fourth arrangement rollers 621 are spaced apart from the third arrangement rollers 611 by a predetermined distance, and are arranged to be staggered at corresponding positions between the third arrangement rollers. The third arrangement rollers 611 and the fourth arrangement rollers 621 are formed in a direction perpendicular to the first arrangement rollers 511 and the second arrangement rollers 521 described above.

The second interval adjusting unit includes a third arrangement roller support unit 610, a fourth arrangement roller support unit 620, a second arrangement roller support unit 620, and a second arrangement roller support unit 610. The third arrangement roller support unit 610, the fourth arrangement roller support unit 620, A length variable portion 615, and a second lever 630. And the second interval adjusting unit brings the third arranging roller 611 and the fourth arranging roller 621 close to or away from each other in the vertical direction.

The third arrangement rollers 611 are rotatably fixed to the third arrangement roller supports 610 and the fourth arrangement rollers 621 are rotatably fixed to the fourth arrangement roller supports 620.

The second length variable portion 615 is fixed to the third arrangement roller support portion 610 and the fourth arrangement roller support portion 620 and the second length variable portion 615 is provided between the third arrangement roller support portion 610 and the fourth arrangement roller support portion 620 The distance between the third arrangement roller 611 and the fourth arrangement roller 621 in the vertical direction can be adjusted. The second length varying portion 615 can be varied in length, for example, by a screw fastening method like the first length varying portion described above. However, the present invention is not limited to this, and a hydraulic cylinder or the like may be used.

The second lever 630 can reduce or extend the length of the second length variable portion 615 according to the rotation direction by rotating the second length variable portion 615. The vertical distance between the third arrangement roller 611 and the fourth arrangement roller 621 is narrowed when the length of the second length variable portion 615 is reduced and the length of the second length variable portion 615 The vertical spacing between the third arrangement roller 611 and the fourth arrangement roller 621 is widened.

10, the twisted-pair cable 30 passes between the first arrangement rollers 511 and the second arrangement rollers 521 in the first roller unit 500, and the second roller unit 600 The third arranging rollers 611 and the fourth arranging rollers 621 are passed through.

At this time, the first lever 530 and the second lever 630 are rotated to narrow the gap between the first arrangement rollers 511 and the second arrangement rollers 521, and the third arrangement rollers 611 It is possible to press the twisted-pair cable 30 by narrowing the space between the fourth arrangement rollers 621.

By pressing the twisted-pair cable 30 as described above, it is possible to prevent the twisted structure of the twisted-pair cable 30 from being released by the restoring force without providing any additional heating means, and consequently to improve the surface quality. In addition, the time required for heating can be shortened to further improve the production speed of the twisted cable.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. have.

10: Core cable
20: Strand cable
30: Stranded cable
100: rotor
110: supply port
120: Support frame
200: connection bridge
300: guide portion
400: Assembly dice
500: first roller portion (pressing portion)
600: second roller portion (pressurizing portion)
700: Measuring roller
800: full roller
900: Cable guide

Claims (11)

A rotor rotating at a constant speed in one direction;
A guiding part provided at a rear end of the rotor in a conical shape to guide a strand cable supplied from the rotor and to rotate the strand cable in conjunction with the rotor to twist the strand cable on the core cable;
A collective die for forming a twist point S on which the strand cables are arranged on the core cable; And
A first roller portion having a plurality of rollers for pressing the twisted cable in a first direction and a second roller portion provided at a rear end of the first roller portion and pressing the twisted cable in a direction perpendicular to the first direction And a pressurizing portion provided,
Wherein the first roller portion
A plurality of first arrangement rollers arranged at regular intervals along the progressive wave of the twisted cable; And
And a second arrangement roller arranged to be staggered between the first arrangement rollers,
And a first gap adjusting portion for bringing the first arrangement roller and the second arrangement rollers closer or spaced in the first direction,
Wherein the first interval adjusting unit comprises:
A first arrangement roller support portion in which the first arrangement rollers are rotatably fixed;
A second arrangement roller support portion in which the second arrangement rollers are rotatably fixed; And
Wherein the first arrangement roller support portion and the second arrangement roller support portion are fixed to the first arrangement roller support portion and the second arrangement roller support portion, respectively, and the length between the first arrangement roller support portion and the second arrangement roller support portion is variable, And a first length variable portion for adjusting the interval,
The length of the first variable length portion is variable by a screw fastening method,
And a first lever which rotates the first length variable portion and reduces or expands the length of the first length variable portion according to the rotation direction,
And the second roller portion
A plurality of third arrangement rollers arranged at predetermined intervals along the traveling direction of the twisted cable; And
And a fourth arrangement roller arranged to be staggered between the third arrangement rollers,
The third arrangement roller and the fourth arrangement roller are provided in a direction perpendicular to the first arrangement roller and the second arrangement roller,
And a second spacing adjusting portion for bringing the third arranging roller and the fourth arranging rollers close to or away from each other in a second direction perpendicular to the first direction,
Wherein the second gap adjusting unit comprises:
A third arrangement roller support portion in which the third arrangement rollers are rotatably fixed;
A fourth arrangement roller support portion in which the fourth arrangement rollers are rotatably fixed; And
The third arrangement roller support portion and the fourth arrangement roller support portion are fixed to each other, and the length between the third arrangement roller support portion and the fourth arrangement roller support portion is variable, and the distance between the third arrangement roller and the fourth arrangement roller And a second length variable portion for adjusting the interval,
The length of the second length varying part is variable by a screw fastening method,
And a second lever for rotating the second length variable portion and reducing or expanding the length of the second length variable portion according to the rotation direction. delete delete delete delete delete delete delete delete The method according to claim 1,
A connection bridge connecting the rotational center axes of the rotor and the guide portion to each other; Further comprising:
And the core cable is supplied through the hollow of the connection bridge. The method according to claim 1,
And a cable guide portion for guiding a stranded cable strand between the guide portion and the aggregate dice,
The cable guide portion includes:
An interlocking tube rotated in association with the guide portion; And
And a guide rib provided along the outer periphery of the interlocking pipe and having a guide member through which the strand cable passes.

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