KR101043284B1

KR101043284B1 - Method and apparatus for cable laid rope

Info

Publication number: KR101043284B1
Application number: KR1020100067968A
Authority: KR
Inventors: 엄갑식
Original assignee: 대광기업 주식회사
Priority date: 2010-07-14
Filing date: 2010-07-14
Publication date: 2011-06-21

Abstract

PURPOSE: A method for manufacturing a cable-laid rope is provided to improve rope productivity and to obtain high quality ropes. CONSTITUTION: A method for manufacturing a cable-laid rope comprises: a step of inserting the center of a drum(5) to a central rotation pipe(3) to be rotatable; a step of uncoiling the rope of the drum and passing the rope through a plurality of pulleys(72); a step of vertically penetrating the rope through the central rotation pipe; a step of connecting the end portion of the rope to the uncoiled rope to form a closed loop; a step of moving the rope of closed rope form along the pulley; a step of rotating a rope twisting part(8) to be interlocked with the central rotation pipe; a step of serially rolling a rope around a rope which vertically moves; a step of rotating the drum; and a step of cutting one side the rope of closed loop form.

Description

Cable Raid Manufacturing Method and Apparatus {METHOD AND APPARATUS FOR CABLE LAID ROPE}

The present invention relates to a cable raid rope manufacturing method and apparatus, and more particularly cable raid rope manufacturing method and apparatus for automatically manufacturing a cable raid rope, such as cable raid grommet or cable raid sling through a simple process. It is about.

Generally, cablelaid ropes such as cablelaid glommets and cablelaid slings are used for lifting or unloading heavy items such as cargo during crane unloading. Cablelaid glommets have a closed loop structure. The laid sling is characterized by a structure having rings at both ends.

Thus, when manufacturing the cablelaid glommet or cablelaid slings configured as described above, a method of twisting the wire by the hands of a number of workers holding the drum by hand was widely used.

However, when manufacturing the cablelaid glommet or cablelaid sling by hand as described above, there was a problem that a lot of time and cost was wasted.

In addition, when manufacturing a large-capacity cablelaid glommet or cablelaid sling by hand, there was also a problem that can not be manufactured as the heavy lifting rope can not be rotated by the worker holding the drum wound.

Therefore, the present invention was invented to solve the above problems,

It is an object of the present invention to provide a cablelaid rope manufacturing method and apparatus which can automatically manufacture a cablelaid rope such as cablelaid glommet or cablelaid sling by a simple process.

In addition, another object of the present invention is to provide a cable raid rope manufacturing method and apparatus capable of manufacturing a high-capacity cable raid glommet or cable raid sling.

It is still another object of the present invention to provide a cable laid rope manufacturing method and apparatus for automatically winding a drum to initially wind the drum before manufacturing the cable laid rope.

The present invention for achieving the above object, the drum mounting step of inserting the center of the drum to be rotated in the vertical center rotary tube to be mounted on the horizontal mounting plate, the rope of the drum to be passed through to support a plurality of pulleys After the rope is vertically penetrated to the center rotary tube and then the end of the rope is connected to the rope loosened from the drum to form a closed loop, and the loop of the closed loop state while moving the rope along the pulley Rotating the rope twisted portion provided in the upper portion of the center rotary tube in conjunction with the central rotary tube to rotate the rope twisted portion while pulling the rope while continuously winding around the rope vertically moving the rope wound on the drum A rope manufacturing step of manufacturing a cable laid rope having a plurality of ropes twisted by rotating the drum while making the speed and the rotational speed of the drum different, Cutting one side of the manufactured closed loop-shaped rope and discharging it from the apparatus, and manufacturing a cablelaid sling having a ring on both sides of the cut rope; In the drum mounting step, the drum is mounted as an empty drum, and the process of disconnecting the drum and the central rotary tube after connecting the empty drum and the central rotary tube, winding the rope from the empty drum through the rotational force of the central rotary tube. It further features a cable laid rope manufacturing method.
In addition, the drum mounting step of inserting the center of the drum to be rotated in the vertical center rotary tube to place on the horizontal mounting plate, and after passing the rope of the drum to be supported by a plurality of pulleys, the rope passes through the central rotary tube vertically And a closed loop forming step of forming a closed loop by connecting the end of the rope to a rope loosened from the drum, and moving the rope in the closed loop state along the pulley, and at the same time, a rope provided on the upper portion of the central rotary tube. Rotating the twisted portion interlocked with the central rotating tube while continuously winding the rope wound around the drum to move vertically around the vertically moving rope, the drum rotates while the rotational speed of the rope twisted portion is different from that of the drum. Rope manufacturing step of rotating the cable to produce a plurality of rope twisted rope rope, and adjust the position of one of the pulleys After removing the tension of the closed loop rope, the closed loop rope is separated from the pulleys, and the closed loop rope is discharged from the inside of the central rotary tube to the outside through the rope discharge opening. Preparing a laid glomet; In the drum mounting step, the drum is mounted as an empty drum, and the process of disconnecting the drum and the central rotary tube after connecting the empty drum and the central rotary tube, winding the rope from the empty drum through the rotational force of the central rotary tube. It further features a cable laid rope manufacturing method.

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In addition, by cutting the one side of the prepared cablelaid glommet characterized in that the cablelaid rope manufacturing method further comprising the step of manufacturing a cablelaid sling having a ring on both sides.

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In addition, the length of the rope wound on the empty drum, characterized in that the cable laid rope manufacturing method to be the same as the length of the rope consumed when manufacturing the cable laid rope through a single process.
In addition, the central rotating tube is provided through the horizontal mounting plate of the main body is rotated by the drive unit, the drum is passed through the central winding tube is rotated to the outside of the central rotating tube to be mounted on the horizontal mounting plate, the rope is wound, A rope conveying part for releasing the rope and supporting it with a plurality of pulleys, passing the rope perpendicularly to the center rotating tube, connecting the end of the rope to the rope loosened from the drum, and then conveying the rope in a closed loop state; Cables with multiple ropes twisted by rotating the drum with different rotational speeds as the wire rope is pulled while continuously winding the rope wound on the drum by vertically rotating the rope wound on the drum. A rope twist to produce a laid rope; Optionally connecting the central rotary tube and the drum is characterized in that the cable laid rope manufacturing apparatus further comprises a connecting means for transmitting the rotational force of the central rotary tube directly to the drum to wind the rope on the drum.
In addition, the manufacturing apparatus, the cable laid rope manufacturing apparatus further comprises a rope discharge opening for discharging the cable laid rope on the closed loop completed in the state in which the ropes of the drum are all released from the inside of the central rotary tube to the outside. It features.

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In addition, the rope twist portion is provided on one side of the upper side of the horizontal mounting plate and the rotating projection roller is provided with a rotating guide roller for rotating the rope of the drum at the protruding end, and the upper portion of the horizontal mounting plate to the upper end of the rotation It is characterized by a cable laid rope manufacturing apparatus including an upper protrusion provided with a winding guide roller wound around a vertically moving rope by rotating the rope passed through the guide roller.

The drive unit may include a rotary gear provided around the center rotary tube and rotated in engagement with a main gear connected to the motor; The rope discharge opening may include a cable opening rope manufacturing apparatus including a side opening part provided at the side of the center rotating tube, the horizontal mounting plate, and the drum, and an opening gear part capable of opening at the side of the rotary gear. It is done.
The connecting means may include one or more pin through holes formed around the upper portion of the center rotary tube, one or more pin grooves formed on the drum, and a connection pin inserted into the pin grooves through the pin through holes. It features a cable laid rope manufacturing apparatus.

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The main body further includes a rope supply part provided at a side of the side on which the drum is mounted to supply a rope to the drum; The rope supply unit is characterized in that the cable-laid rope manufacturing apparatus including both supporters for supporting the central axis to rotate the rope supply drum loosened.

In addition, between the lower portion of the drum and the upper portion of the horizontal mounting plate is characterized in that the cable laid rope manufacturing apparatus further provided with a sliding means so that the drum can be rotated smoothly.

In addition, the sliding means is a cable laid rope including a rail formed concentrically around the central rotary tube of the upper surface of the horizontal mounting plate, and a plurality of sliding wheels provided around the lower portion of the drum and rotated along the rail It is characterized by a manufacturing apparatus.

In addition, the rope transfer unit, a plurality of upper protrusions provided on the base constituting the main body, and each of the upper protrusions to support the rope and two of the pulleys provided in the upper and lower parts of the central rotary tube And a plurality of pulleys for maintaining the rope vertically, and a cable-laid rope manufacturing apparatus including a transfer drive motor connected to one or more of the plurality of pulleys to apply a moving force to the rope.

In this way, the present invention by producing the cable laid rope, such as cable laid grommet or cable laid sling automatic by a simple process, it is possible to improve the productivity of the cable laid rope as well as to produce a high quality cable laid rope There is.

It also has the effect of quickly producing large cablelaid glommets or cablelaid slings in a simple process.

In addition, prior to manufacturing the cable laid rope, the drum is automatically rotated initially so that the rope can be simply wound on the drum, thereby reducing the one-time manufacturing process time during the manufacture of the cable laid rope.

1 is a perspective view showing a cable laid rope manufacturing apparatus according to the present invention.
Figure 2 is a perspective view showing the main portion of the cable laid rope manufacturing apparatus according to the present invention.
Figure 3 is an exploded perspective view showing the main portion of the cable laid rope manufacturing apparatus according to the present invention.
Figure 4 is an exploded perspective view showing an enlarged view of the drum and the horizontal mounting plate according to the present invention.
5 is a cross-sectional view taken along the line AA of FIG.
6 is a cross-sectional view taken along line BB of FIG. 1.
7 is a process chart showing the cable laid rope manufacturing method of the first embodiment according to the present invention.
8 is a sectional view showing a state in which a rope is wound on a drum according to the present invention.
9 is a process chart showing a cable laid rope manufacturing method of a second embodiment according to the present invention.
10 is a perspective view showing a rope discharge step of the cable laid rope manufacturing method of the second embodiment according to the present invention.

EMBODIMENT OF THE INVENTION Hereinafter, it demonstrates more concretely based on this invention. However, the accompanying drawings are only intended to describe the technical spirit of the present invention in more detail, and the technical spirit of the present invention is not limited thereto.

1 is a perspective view showing a cable laid rope manufacturing apparatus according to the present invention, Figure 2 is a perspective view showing the main portion of the cable laid rope manufacturing apparatus according to the present invention, Figure 3 is a main portion of the cable laid rope manufacturing apparatus according to the present invention 4 is an exploded perspective view of the drum and the horizontal mounting plate according to the present invention.

The cable laid rope manufacturing apparatus according to the present invention includes a horizontal mounting plate (2) spaced apart from the upper portion of the base (11) constituting the main body 1, provided with a vertical through the horizontal mounting plate (2) The central rotary tube 3 rotated by the drive unit 4, the drum 5 rotatably mounted on the central rotary tube 3, and the rope R unwound from the drum 5; It includes a rope transfer portion 7 for connecting and moving in a closed loop state while passing vertically to 3), and a rope twist portion 8 provided on an upper portion of the center rotary tube 3.

The horizontal mounting plate 2 is provided to be spaced apart from the base 11 by a vertical stand. As the through hole is formed in the horizontal mounting plate 2, the center rotating tube 3 is vertical. It can be rotated through.

The drive unit 4 for rotating the central rotary tube 3 is provided on the lower portion of the horizontal mounting plate 2 and the outer side of the central rotary tube 3 to serve to rotate the central rotary tube 3. And a rotary gear 43 provided around the center rotary tube 3 to rotate with the main gear 42 connected to the motor 41. The motor 41 is mounted on a vertical stand that supports the central rotary tube 3 to the base 11.

The rope conveying part 7 releases the rope R of the drum 5 and supports it with a plurality of pulleys 72 and passes the rope R perpendicularly to the central rotary tube 3 and then the rope R End of the drum is connected to the rope (R) loosened from the drum (5), and then serves to transport the rope (R) in a closed loop state, provided in the base (11) constituting the main body (1) A plurality of upper protrusions 71 and each of the upper protrusions 71 are provided to support the rope R, and two pulleys 72 among the plurality of upper and lower portions of the central rotating tube 3 are provided. It is provided with a plurality of pulleys 72 to maintain the rope vertically, and a transfer drive motor 73 is connected to one or more of the plurality of pulleys 72 to apply a moving force to the rope (R). And one or more of the pulleys 72, although not shown in the figure is configured to adjust the height or position of the left and right pulley 72 is easy to complete the rope (R) by removing the tension during disassembly of the rope (R) To pull away from the pulleys (72).

The rope twisted portion 8 is a periphery of the rope R for vertically moving the rope R wound on the drum 5 by interlocking with the center rotary tube 3 at the upper portion of the central rotary tube 3. By winding the wire rope (R) while continuously winding in the drum (5) to serve to produce a cable laid rope twisted rope (R) a plurality of, the upper portion of the horizontal mounting plate (2) Rotating protrusion 81 is provided on one side and provided with a rotating guide roller 82 to rotate the rope of the drum (5) at the protruding end, and stands on the upper portion of the horizontal mounting plate (2) to the upper end of the rotating guide The winding guide roller 84 is provided to wind the rope R passing through the rotation guide roller 82 on a rope R that is vertically moved as the user walks and rotates the rope R passing through the roller 82. An upper protrusion 83.

In addition, as shown in Figures 1 to 4, the cable laid rope manufacturing apparatus according to the present invention, the center of the cable loop rope of the closed loop shape is completed in the state in which the rope (R) of the drum (5) is all released. It further comprises a rope discharge opening 9 for discharging to the outside from the inside of the rotary tube (3).

The rope discharge opening 9 includes side openings 91, 92, 93 provided on the side of the center rotating tube 3, the horizontal mounting plate 2, and the drum 5, and the rotation. An open gear portion 94 provided to be open to the side of the gear 43 is included. That is, the open gear 94 is one side is coupled to the pin to be opened through rotation, it is configured in an arc shape and the gear teeth are formed on the outside.

Hereinafter, the configuration of the present invention configured as described above in more detail.

FIG. 5 is a cross-sectional view taken along the line A-A of FIG. 1, and FIG. 6 is a cross-sectional view taken along the line B-B of FIG.

1 to 6, the cable laid rope manufacturing apparatus according to the present invention, by selectively connecting the center rotary tube 3 and the drum 5 to the rotational force of the central rotary tube 3 drum ( It further comprises a connecting means 31 for direct delivery to 5) to wind the rope (R) to the drum (5).

The connecting means 31 is to automatically wind the rope (R) to the drum (5) prior to the manufacture of the cable laid rope, at least one around the upper portion of the center rotary tube (3) A formed pin through hole 311, one or more pin grooves 312 formed on the drum 5, and a connection pin 313 penetrating through the pin through holes 311 and inserted into the pin grooves 312. do. Accordingly, when the connecting pin 313 is inserted into the pin through hole 311 and the pin groove 312, the rotational force of the central rotary tube 3 is transmitted to the drum 5, so that the rope R is initially attached to the drum 5. It can be rolled up automatically.

Therefore, by initially rotating the drum 5 automatically to simply wrap the rope (R) to the drum (5), there is an advantage that the manufacturing time of the cable laid rope can be shortened to a minimum.

In addition, the main body 1 further includes a rope supply part 12 which is provided at the side of the side on which the drum 5 is mounted and supplies the rope R to the drum 5.

The rope supply part 12 includes both support members 121 for supporting the drum for supplying the rope to the central shaft 122 so as to be released and rotated, and the rope supply part 12 is initially provided with a rope R in the drum 5. ) If you wind the role of smoothing the supply of rope.

In addition, a sliding means 6 is further provided between the lower portion of the drum 5 and the upper portion of the horizontal mounting plate 2 to smoothly rotate the drum 5 in the process of manufacturing the cable laid rope. .

The sliding means (6) is provided with a rail (61) formed concentrically around the central rotary tube (3) on the upper surface of the horizontal mounting plate (2), and is provided around the lower portion of the drum (5). It includes a plurality of sliding wheels 62 rotated along. And the sliding wheel 62 is to be able to move more smoothly in the rail 61 as the wheel is rotated 360 degrees.

Hereinafter, referring to the cable laid rope manufacturing apparatus according to the present invention configured as described above is described a cable laid rope manufacturing method according to the present invention.

7 is a process chart showing the cable laid rope manufacturing method of the first embodiment according to the present invention.

Accordingly, in the cable laid rope manufacturing method of the first embodiment according to the present invention, as shown in FIGS. 1 to 7, first, the center of the drum 5 is inserted into the vertical center rotating tube 3 so as to be rotated horizontally. The drum mounting step 101 is placed on the plate 2.

Next, the rope (R) of the drum (5) is released and passed through to be supported by the plurality of pulleys (72), and the rope is passed through the center rotating tube (3) perpendicularly, and then the end of the rope (R) is drum (5). Proceeds to the closed loop forming step 102 to form a closed loop by connecting to the rope (R) loosened. That is, in forming the closed loop, as the pulleys 72 are positioned above and below the central rotary tube 3, the rope passing through the central rotary tube 3 is erected vertically.

Next, the rope R in the closed loop state is moved along the pulleys 72 through the operation of the transfer drive motor 73, and at the same time, the rope twisted portion 8 provided at the upper portion of the central rotary tube 3 is provided. Rotation in conjunction with the central rotary tube (3) by winding the rope (R) wound on the drum (5) continuously around the rope (R) to move vertically while pulling the rope (R) drum (5) Rotate to proceed the rope manufacturing step 103 of producing a plurality of rope twisted cable laid rope (R). That is, when the rope twisted portion 8 is rotated and the rope R released from the drum 5 is wound on the rope R moving vertically, the rotational force of the rotation protrusion 81 constituting the rope twisted portion 81 and The pulling force is generated on the rope R released from the drum 5 due to the movement force of the rope R moving vertically. Therefore, through the rotation of the rotary protrusion 81 constituting the rope twisted portion (8) is continuously wound around the rope (R) to move the rope (R) wound on the drum (5) vertically rope (R) The drum (5) is rotated in accordance with the pulling of a plurality of rope (R) is to produce a cable laid rope twisted. More specifically, the length of one turn of the rope R released from the drum 5 to the rope R that is vertically moved in the process of winding the rope R is greater than the unwinding length of one turn of the drum 5. As it becomes relatively short, due to the difference between the rotational speed of the rope twisted portion 8 and the rotational speed of the drum 5, the rope 5 is released from the drum 5 to a rope R in which the drum 5 is continuously released and vertically moved. (R) can be wound continuously. Because the rope twisted portion 8 and the drum 5 are each rotated to produce a cable laid rope as described above.

Next, a step 201 of cutting the one side of the manufactured closed loop rope is discharged from the apparatus. That is, after cutting one side of the rope of the closed loop shape to make a straight, the rope is discharged from the inside of the central rotary tube (3) by pulling the one end of the straight rope.

And by proceeding to the step 202 of manufacturing a cable laid sling having a ring on both sides of the rope finally cut, to manufacture a cable laid sling among the cable laid rope.

Therefore, the cable-laid sling can be produced simply and easily through the process of forming a loop after cutting the closed loop-shaped rope as described above.

On the other hand, Figure 8 shows a state in which the rope wound on the drum according to the present invention, in the drum mounting step 101, the drum 5 is mounted as an empty drum, the empty drum 5 and the central rotary tube (3) by connecting the rotational force of the central rotary tube (3) in the empty drum to wind the rope (R) in the empty drum (5) and then disconnect the connection between the empty drum (5) and the central rotary tube (3) You can proceed further steps.

And it is preferable that the length of the winding of the rope (R) to the empty drum (5) is the same as the length to produce a single cable laid rope (R).

9 is a process chart showing a cable laid rope manufacturing method of a second embodiment according to the present invention, Figure 10 is a perspective view showing a rope discharge step of the cable laid rope manufacturing method of a second embodiment according to the present invention.

In the cable laid rope manufacturing method according to the second embodiment according to the present invention, as shown in Figures 1 to 6 and 9, 10, first the central winding tube 51 of the drum (5) to the center rotary tube (3) The drum mounting step 101 is carried out to be rotated to the horizontal mounting plate (2) while being inserted through the rotation.

Finally, after adjusting the position of one of the pulleys to remove the tension of the closed loop rope to remove the closed loop-shaped rope from the pulleys, the manufactured closed loop-shaped rope is moved to the central rotary tube By discharging to the outside through the rope discharge opening in the interior of the step of producing a cable laid glommet (301), to manufacture a cable laid glommet of cable laid rope.

In addition, by cutting the one side of the prepared cable laid glommet by providing a ring on both sides to produce a cable laid sling 401, it is also possible to manufacture a cable laid sling among the cable laid rope.

Meanwhile, as illustrated in FIG. 8, in the drum mounting step 101, the drum 5 is mounted as an empty drum, and the empty drum 5 and the central rotary tube 3 are connected to each other to form a central rotary tube ( After applying the rotational force of 3) in the empty drum to wrap the rope (R) in the empty drum (5), the step of releasing the connection between the empty drum (5) and the central rotary tube (3) can be further proceeded.

Although the cable raid rope manufacturing method and apparatus according to the present invention have been described in detail above, this is only for describing the most preferred embodiment of the present invention, and the present invention is not limited thereto, and according to the appended claims. Range is determined and defined. In addition, any one of ordinary skill in the art can make various modifications and imitations according to the description in the specification of the present invention, but it will be apparent that this is also outside the scope of the present invention.

1: main body
11: base
12: rope supply unit
121: support, 122: central axis
2: horizontal mounting plate
3: center rotary tube
31: connection means
311: pin through hole, 312: pin groove, 313: connecting pin
4: drive unit
41: motor
42: cycle word
43: rotating gear
5: drum
51: central winding pipe
6: sliding means
61: rail
62: sliding wheel
7: rope transfer part
71: upper protrusion
72: pulley
73: feed drive motor
8: rope twist
81: rotating protrusion
82: rotating guide roller
83: upper protrusion
84: winding guide roller
9: rope discharge opening
91,92,93: side opening
94: open gear part

Claims

A drum mounting step of inserting the center of the drum into a vertical center rotating tube so as to be placed on a horizontal mounting plate;
A closed loop forming step of releasing the rope of the drum and passing it to be supported by a plurality of pulleys, and then passing the rope vertically through the central rotary tube, and then connecting the end of the rope to the loose rope from the drum to form a closed loop;
While moving the rope in the closed loop state along the pulley, the rope twist portion provided in the upper portion of the center rotary tube is rotated in association with the central rotary tube to continuously rotate the rope wound around the drum vertically A rope manufacturing step of manufacturing a cable-laid rope in which a plurality of ropes are twisted by rotating the drum while the rotational speed of the rope twist part and the rotational speed of the drum differ from each other while pulling the rope;
Cutting one side of the manufactured closed loop rope and discharging it from the apparatus;
Manufacturing a cablelaid sling with rings on both sides of the cut rope;
In the drum mounting step, the drum is mounted as an empty drum, and the process of disconnecting the drum and the central rotary tube after connecting the empty drum and the central rotary tube, winding the rope from the empty drum through the rotational force of the central rotary tube. Cable raid rope manufacturing method characterized in that further proceeds.

A drum mounting step of inserting the center of the drum into a vertical center rotating tube so as to be placed on a horizontal mounting plate;
A closed loop forming step of releasing the rope of the drum and passing it to be supported by a plurality of pulleys, and then passing the rope vertically through the central rotary tube, and then connecting the end of the rope to the loose rope from the drum to form a closed loop;
While moving the rope in the closed loop state along the pulley, the rope twist portion provided in the upper portion of the center rotary tube is rotated in association with the central rotary tube to continuously rotate the rope wound around the drum vertically A rope manufacturing step of manufacturing a cable-laid rope in which a plurality of ropes are twisted by rotating the drum while the rotational speed of the rope twist part and the rotational speed of the drum differ from each other while pulling the rope;
After removing the tension of the closed loop rope by adjusting the position of one of the pulleys to remove the closed loop-shaped rope from the pulleys, the manufactured closed loop-shaped rope inside the central rotary tube Discharging to the outside through a rope discharge opening at to produce a cablelaid glommet;
In the drum mounting step, the drum is mounted as an empty drum, and the process of disconnecting the drum and the central rotary tube after connecting the empty drum and the central rotary tube, winding the rope from the empty drum through the rotational force of the central rotary tube. Cable raid rope manufacturing method characterized in that further proceeds.

The method of claim 2, wherein the step of cutting the one side of the prepared cablelaid glommet having a ring on both sides to produce a cablelaid sling,
Cable laid rope manufacturing method characterized in that it further comprises.

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The rope of any one of claims 1 to 3, wherein the length of the rope wound around the empty drum is
Cable laid rope manufacturing method characterized in that the same length as the rope consumed when manufacturing the cable laid rope through a single process.

A center rotating tube 3 provided through the horizontal mounting plate 2 of the main body 1 and rotated by the driving unit 4;
A drum (5) on which the central winding pipe (51) penetrates to the outside of the center rotary pipe (3) to be mounted on the horizontal mounting plate (2), and the rope (R) is wound;
The rope R of the drum 5 is released and supported by a plurality of pulleys 72 and the rope is vertically penetrated through the central rotary tube 3, and the end of the rope R is loosened from the drum 5. A rope conveying part 7 connected to (R) and then conveying the rope R in a closed loop state;
Wire rope (R) while continuously winding around the rope (R) to vertically move the rope (R) wound on the drum (5) by rotating in conjunction with the center rotary tube (3) in the upper portion of the center rotary tube (3) A rope twisted portion 8 for rotating the drum 5 with a difference in rotational speed as a result of pulling a) to produce a cablelaid rope twisted with a plurality of ropes R;
By selectively connecting the center rotary tube 3 and the drum 5 to transfer the rotational force of the central rotary tube 3 directly to the drum 5 to wind the rope (R) to the drum (5) Cable laid rope manufacturing apparatus characterized in that it further comprises a connecting means (31).

The method of claim 6, wherein the manufacturing apparatus,
Rope discharge opening 9 for discharging the cable laid rope on the closed loop completed in the state in which all the ropes R of the drum 5 are released from the inside of the center rotary tube 3 to the outside,
Cable raid rope manufacturing apparatus characterized in that it further comprises.

The method of claim 6, wherein the rope twisted portion 8,
Rotating protrusion 81 is provided on the upper side of the horizontal mounting plate (2) and provided with a rotating guide roller 82 for rotating the rope of the drum (5) at the protruding end;
An upper portion of the horizontal mounting plate (2), the upper end is provided with a winding guide roller 84 wound around the rope (R) which is vertically moved by rotating the rope passing through the rotary guide roller 82 Protrusions 83,
Cable laid rope manufacturing apparatus comprising a.

8. The driving mechanism (4) according to claim 7, wherein the driving portion (4) comprises a rotary gear (43) which is provided around the center rotary tube (3) and rotates in engagement with a main gear (42) connected to the motor (41);
The rope discharge opening 9 includes side openings 91, 92, 93 provided on the side of the center rotating tube 3, the horizontal mounting plate 2, and the drum 5, and the rotation. Cable laid rope manufacturing apparatus characterized in that it comprises an open gear (94) which is provided to be open to the side of the gear (43).

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The method of claim 6, wherein the connecting means 31,
At least one pin through hole 311 formed around the upper portion of the central rotary tube 3;
One or more pin grooves 312 formed on the drum 5;
A connection pin 313 penetrating through the pin through hole 311 and inserted into the pin groove 312,
Cable laid rope manufacturing apparatus comprising a.

7. The main body (1) according to claim 6, wherein the main body (1) includes a rope supply part (12) which is provided on the side of the side on which the drum (5) is mounted and supplies a rope (R) to the drum (5);
The rope supply unit 12 is characterized in that the cable supply rope manufacturing apparatus characterized in that it comprises both supports (121) for supporting the drum for supplying the rope (5) to the central axis (122).

The cable raid according to claim 6, further comprising sliding means (6) between the lower part of the drum (5) and the upper part of the horizontal mounting plate (2) so that the drum (5) can be rotated smoothly. Rope manufacturer.

14. The sliding means (6) according to claim 13,
A rail 61 formed in a concentric shape around the center rotary tube 3 of the upper surface of the horizontal mounting plate 2,
A plurality of sliding wheels 62 are provided around the lower portion of the drum 5 and rotated along the rail,
Cable laid rope manufacturing apparatus comprising a.

The method of claim 6, wherein the rope transfer part 7
A plurality of upper protrusions 71 provided on the base 11 constituting the main body 1,
A plurality of pulleys 72 are provided on each of the upper protrusions 71 to support the rope R, and two pulleys 72 are provided on the upper and lower portions of the central rotary tube 3 to hold the rope vertically. Pulley 72,
The transfer drive motor 73 is connected to one or more of the plurality of pulleys 72 to apply a moving force to the rope (R),
Cable laid rope manufacturing apparatus comprising a.