KR20090094583A - Method for manufacturing wire rope sling, and wire rope sling manufactured by the same - Google Patents

Abstract

A manufacturing method of a wire rope sling and the wire rope sling manufactured thereby are provided to improve tensile strength by dispersing the load of freight uniformly with a consecutive wire rope of one strand. A manufacturing method of a wire rope sling includes a step for piecing unit ropes together consecutively. A rope main body is made of the structure in which 3 strand triplet of the unit rope of 9 lines are tied. The rope sling(100) includes an eye part is formed on both sides of the rope main body(101). The rope main body is comprised of structure in which a first, a second, a third group ropes are twisted each other.

Description

Method for manufacturing wire rope sling and wire rope sling manufactured by this method {Method for manufacturing wire rope sling, and wire rope sling manufactured by the same}

The present invention relates to a wire rope sling used for unloading heavy materials such as cargo, and in particular, a wire rope sling is manufactured by continuously twisting the wire in a 9 row (PART) using a single strand of wire rope as compared to the conventional wire rope sling. The present invention relates to a wire rope sling manufacturing method and a wire rope sling manufactured through the light, flexible, and easy to work.

In general, the wire rope is a twisted strand of strands made by twisting a metal wire of a bare strand, and is used as a lifting means for an unloading operation in which a heavy load such as a cargo or a machine must be lifted and lowered.

Such a wire rope is usually composed of a two-layer structure in which a single core wire and six outer wires surrounding the wire are twisted.

In order to lift a large amount of weight (cargo) using a wire rope, the basic wire rope as described above is twisted multiplely, and a large capacity sling is used as the wire rope structure.

Conventional high-capacity wire rope slings are produced by twisting a plurality of strands of wire rope in multiple layers, and end-processing using a sleeve made of metal at an eye portion of the both ends, that is, a ring portion.

However, such a conventional high-capacity wire rope sling is produced by twisting a plurality of strands of non-contiguous wire rope together, so that the tensile strength is weaker than the sling of the same capacity, so that the lift load is lowered, and the overall weight is heavy, and the flexibility is also poor. There is a problem.

In addition, by being manufactured with a plurality of wire rope strands, not only the end treatment of each wire rope is easy, but also end processing is not easy, such as requiring a means for fixing more firmly so that the end is not loosened.

The present invention has been made to solve the above problems, by producing a wire rope sling of 9 lines (bone) using a single strand of wire rope, it is possible to increase the lifting capacity compared to the existing sling of the same capacity, In addition, an object of the present invention is to provide a wire rope sling manufacturing method and a wire rope sling manufactured by the same, which can improve flexibility and tensile strength and improve workability.

In the wire rope sling manufacturing method according to the present invention for realizing the above object, two bundles for dividing a continuous unit rope into two A-rope bundles and a B-rope bundle on both sides of the first rope set to a predetermined length. A separation step; A sling basic forming step of releasing the A-Rope bundle and the B-Rope bundle on both sides of the first rope to form a first ring and a second ring, and binding the first rope member and the second bundle member to the point where the first rope and the second rope bundle meet, respectively. Wow; A rope bundle passing through the first bundle member is wound around the first rope to the second ring to connect the second rope, and then in the reverse direction, along the circumference of the first rope and the second rope in the second ring. A first group rope fabrication step of manufacturing a first group rope between the first and second rings by the first, second and third ropes by connecting the third rope by winding up to the first ring; Continuing the above steps, loosen the A-rope bundle from the first ring to the third position to connect the fourth rope and form a third ring at the end by using the third binding member, and then again the circumference of the fourth rope. Wind the rope to the first ring and connect the fifth rope, and then the sixth rope is connected from the first ring to the third ring along the circumference of the fourth and fifth ropes, and then to the third ring side. A second group rope manufacturing step of manufacturing a second group rope between the first and third rings by the fourth, fifth and sixth ropes by treating the ends of the rope bundles; Loosen the B-rope bundle through the second bundle member to the fourth position to connect the seventh rope, and form a fourth ring by using the fourth bundle member at the end of the seventh rope. Tie the eighth rope by winding it to the second ring along the circumference of the rope, and then connecting the ninth rope by winding it to the fourth ring along the circumferences of the seventh and eighth ropes in the second ring. A third group rope making step of manufacturing a third group rope between the second and fourth rings with the seventh, eighth and ninth ropes by treating the end of the B-rope bundle on the fourth ring side; The first group rope, the second group rope, the third group rope weave together, so that the first ring and the fourth ring, the second ring and the third ring to match each other, to complete the sling of 9 rope slings Characterized in that it comprises a step.

Here, in the first, second, third group rope manufacturing step, the direction of winding the rope is preferably in the twisting direction of the unit rope.

In the sling completion step, the direction of weaving together the first group rope, the second group rope, and the third group rope is twisted in a direction opposite to the direction in which the rope is wound in the first, second, and third group rope manufacturing steps. It is desirable to produce a sling.

The wire rope sling according to the present invention for realizing the above object is a wire rope sling manufactured using the wire rope sling manufacturing method described above, and is composed of a continuous row of unit ropes, Rope body between the loop portion is characterized in that the structure consisting of three pairs of three ropes each of the nine ropes unit rope.

The wire rope sling manufacturing method and the wire rope sling manufactured by the same according to the present invention have the following effects.

The present invention, by twisting the nine strands (ring portion 5 strands) using a single strand of continuous wire rope to be able to distribute the load uniformly as a whole by the sling can be expected to improve the tensile strength, thereby There is an effect that can increase the lifting capacity compared to the existing sling of the same capacity.

In addition, the present invention creates a larger lift capacity in a small length, i.e., a small component rope, where the sling body has to match the tight choke hitch, or where it is tight, such as around a pin or pillar. It can be easily applied to the place where it should be bent as much as the radius, and it has an effect that expects to improve workability.

In addition, the present invention, by twisting the nine-wire wire rope three pairs of three by three pairs to increase the flexibility of the entire sling, thereby lifting the bulky weight, excellent elasticity and easy handling effect Will be provided.

Hereinafter, exemplary embodiments of the present invention will be described with reference to the accompanying drawings.

1 is a view showing a wire rope sling manufactured using the wire rope sling manufacturing method according to the present invention, Figure 2 is a cross-sectional view of the A-A portion of FIG.

3 to 8 are flowcharts illustrating a wire rope sling manufacturing method according to the present invention. 3-7, the arrows below the numbers indicate the direction of movement of the rope.

As shown in Figure 1, the wire rope sling 100 according to the present invention, the eye (EYE), that is, the ring portion 110 is formed on both sides of the rope body 101, respectively.

As shown in FIG. 2, the rope body 101 has a structure in which 9-parts, that is, 9 ropes (bones) of the unit ropes P are interwoven. In particular, each of the three unit ropes P is interwoven. The first, second, and third group ropes 10, 20, and 30 are composed of a structure interwoven with each other.

Such a method of manufacturing the wire rope sling 100 according to the present invention will be described in detail with reference to FIGS. 3 to 8.

In the method of manufacturing the wire rope sling 100 according to the present invention, a nine-ply wire rope sling 100 is manufactured as in FIG. 1 and FIG. 2 using a continuous unit rope P of one line (strand). Done.

Manufacturing method, the wire rope preparatory step in order, two bundle separation step of separating the A rope bundle (A) and B rope bundle (B), sling basic forming step of forming two ring portions 110 on both sides , The first group rope production step and the second group rope production step using the A rope bundle (A), the third group rope production step using the B rope bundle (B), the first, second, third group rope (10) , 20, 30) weave together a sling completion step to complete the sling.

The manufacturing method will be described for each step.

First, in the wire rope preparation step, loosen the unit rope (P) using a crane or the like, and then calculate and mark the total length of the unit rope (P) for producing the wire rope sling 100 of the present invention and cut it do.

Next, in the two bundle separation step, referring to Figure 3, a continuous rope of unit rope (P), A rope bundle (A) and B on both sides around the first rope (1) set to a predetermined length Divide into rope bundles (B) to divide. At this time, by using the A-rope bundle A, the first group rope 10 and the second group rope 20 to be described below are manufactured, and the third group rope 30 using the B-rope bundle B. ), So that the rope length of the rope A rope (A) is prepared longer than the rope B rope (B).

Wherein the A rope bundle (A) and B rope bundle (B) is not necessarily limited to the structure rolled in the bundle form, even if the structure can be satisfied enough length to manufacture the wire rope sling 100 of the present invention Any condition may be used as long as it is a condition.

Next, in the sling basic forming step, referring to FIG. 4, by unwinding the A-Rope bundle A and the B-Rope bundle B on both sides of the first rope 1, the first ring E1 and the second ring ( E2) is formed. At this time, at the point where the ropes of the A rope bundle A and the B rope bundle B meet with the first rope 1, the basic structure of the sling is bundled with the first bundle member B1 and the second bundle member B2, respectively. Make

Wire rope sling 100 of the present invention is preferably made in a floor space having a constant bar, when the two bundle separation step and the sling basic forming step, the entire rope is laid on the floor, tape and chalk, etc. It is preferable to proceed after setting and marking the ring forming portion and the length of the product in advance.

In addition to the first bundle member B1 and the second bundle member B2, the bundle members B3 and B4 to be described below use a manila rope or the like commonly used, and bundle members B1 and B2 with wires. It is preferable to proceed with the following steps with the installation part fixed.

Next, in the first group rope manufacturing step, the first group rope 10 is manufactured using the A-rope bundle A. Referring to FIG. 5, the first bundle member B1 passes through the first bundle member B1. A rope bundle (A) is wound around the first rope (1) to the second ring (E2) to connect the second rope (2), and in the reverse direction from the second ring (E2) to the first rope ( 1) is wound around the first rope (E1) along the circumference of the second rope (2) to connect the third rope (3). In this manner, as shown in FIG. 5, the first, second, and third ropes 1, 2, and 3 are woven in three rows between the first ring E1 and the second ring E2 to form the first group rope 10. ).

Here, when the ropes (2, 3) are further bundled by the first bundle member (B1) and the second bundle member (B2) when passing through the first ring (E1) and the second ring (E2). It may be via, but it is also possible to via without being tied.

Particularly, when the second rope 2 and the third rope 3 are wound on the first rope 1 to form the first group rope 10, the second rope 2 and the third rope 3. It is preferable to wind the winding direction of (3) in the direction which the unit rope P twisted.

As described above, in the first group rope fabrication step, the rope wound around the rope A is wound in the direction of the second ring E2, and then again in the direction of the first ring E1. Three ropes (1, 2, 3) are woven together to constitute a first group rope (10) consisting of three.

Next, the second group rope manufacturing step, using the A rope bundle (A) to form the first group rope 10, to produce a second group rope 20, referring to Figure 6, A rope bundle (A) is released from the first ring (E1) to the third position to connect the fourth rope (4) and form a third ring (E3) by using a third bundle member (B) at the end. Then, the fourth rope (4) and the fifth rope (5) is connected to the first rope (E1) by winding the first rope (E1) again along the circumference of the fourth rope (4). The 6th rope 6 is connected while being wound around the rope 5 to the third ring E3, and then the end of the A rope bundle A is disposed on the third ring E3. In this manner, the fourth, fifth, and sixth ropes 4, 5, and 6 are woven between the first ring E1 and the third ring E3 to form a second group rope 20.

Even in the second group rope manufacturing step, the fourth, fifth, sixth ropes 4, 5, and 6 may pass through in a state in which they are further bundled by the first bundle member B1 or the third bundle member B3. However, it is also possible to pass through without being tied. The end treatment of the sixth rope 6 passes through the sleeve fitted to the third ring E3, passes through the third ring E3, passes through the sleeve again, and then locks to the second group rope 20. It is preferable to finish by locking).

Eventually, through the second group rope 20 manufacturing step as described above, a rope group in which three ropes are woven in the second group rope 20 production step following the first group rope production step is produced, thereby A Production of the first group of ropes 10 and the second group of ropes 20 using the rope bundle A are completed.

Next, the third group rope manufacturing step, unlike the first group rope 10 and the second group rope 20 forming process using the A rope bundle (A), to be produced using the B rope bundle (B) Referring to FIG. 7, the B-rope bundle B passing through the second bundle member B2 to the fourth position is connected to the seventh rope 7, and the end of the seventh rope 7 is terminated. The fourth ring E4 is formed using the fourth bundle member B4 at the portion, and then the eighth rope 8 is connected to the second ring E2 by winding the second ring E2 along the circumference of the seventh rope 7. Then, the ninth rope 9 is connected to the fourth ring E4 while being wound along the circumferences of the seventh and seventh ropes 8 and 8 in the second ring E2. The end of the B-rope bundle (B) is processed on the 4th ring (E4) side.

As a result, the seventh, eighth, and ninth ropes 7, 8, and 9 are woven between the second ring E2 and the fourth ring E4 to form the third group rope 30.

Also at this time, the end treatment is preferably performed by the same method as the end treatment of the second group rope 20 to finish.

Through the sling basic forming step from the two bundle separation step as described above, the first group rope 10 production step and the second group rope 20 production step and the B rope bundle (B) using the rope A bundle (A) By performing the third group rope 30 manufacturing step using the), the first, second, and third group ropes (10, 20, 30) of each of the three unit ropes (P) is woven.

At this time, the first ring (E1) is formed by three A-rope bundle (A), the second ring (E2) two by the A-rope bundle (A), one by the B-rope bundle (B) It is formed by, the third ring (E3) is formed of two by the A rope bundle (A), the fourth ring (E4) is also formed of two by the B rope bundle (B).

Next, the sling completion step, by combining the first, second, third group ropes (10, 20, 30) into one, to complete the desired wire rope sling 100, as shown in FIG. 1st group rope 10, 2nd group rope 20, 3rd group rope so that the 1st ring E1 and the 4th ring E4, the 2nd ring E2, and the 3rd ring E3 match, respectively Weave together 30 pieces to complete 9 rope slings.

In this case, referring to FIG. 7, first, the first group rope 10 and the second group rope 20 are woven together, and the first, second, and third group ropes 10 are woven in a manner of weaving the third group rope 30. It is desirable to weave 20,30.

And when weaving the first group rope 10, the second group rope 20, the third group rope 30, the rope winding direction is to produce the first, second, third group rope (10, 20, 30) It is preferable to wind in the direction opposite to the winding direction.

In this sling completion step, after weaving together the first group rope 10, the second group rope 20, and the third group rope 30 together, the wire rope 120 as shown in FIG. ) Or wrap it with a manila rope and finish with a aging treatment.

1 is a view showing a wire rope sling manufactured using the wire rope sling manufacturing method according to the present invention.

FIG. 2 is a cross-sectional view of portion A-A of FIG. 1.

3 to 8 are flowcharts illustrating a wire rope sling manufacturing method according to the present invention.

Claims (4)

A two-stage separation step of dividing the continuous one row of unit ropes into A-Rope bundles and B-Rope bundles on both sides of the first rope set to a predetermined length; A sling basic forming step of releasing the A-Rope bundle and the B-Rope bundle on both sides of the first rope to form a first ring and a second ring, and binding the first rope member and the second bundle member to the point where the first rope and the second rope bundle meet, respectively. Wow; A rope bundle passing through the first bundle member is wound around the first rope to the second ring to connect the second rope, and then in the reverse direction, along the circumference of the first rope and the second rope in the second ring. A first group rope fabrication step of manufacturing a first group rope between the first and second rings by the first, second and third ropes by connecting the third rope by winding up to the first ring; Continuing the above steps, loosen the A-rope bundle from the first ring to the third position to connect the fourth rope and form a third ring at the end by using the third binding member, and then again the circumference of the fourth rope. Wind the rope to the first ring and connect the fifth rope, and then the sixth rope is connected from the first ring to the third ring along the circumference of the fourth and fifth ropes, and then to the third ring side. A second group rope manufacturing step of manufacturing a second group rope between the first and third rings by the fourth, fifth and sixth ropes by treating the ends of the rope bundles; Loosen the B-rope bundle through the second bundle member to the fourth position to connect the seventh rope, and form a fourth ring by using the fourth bundle member at the end of the seventh rope. Tie the eighth rope by winding it to the second ring along the circumference of the rope, and then connecting the ninth rope by winding it to the fourth ring along the circumferences of the seventh and eighth ropes in the second ring. A third group rope making step of manufacturing a third group rope between the second and fourth rings with the seventh, eighth and ninth ropes by treating the end of the B-rope bundle on the fourth ring side; The first group rope, the second group rope, the third group rope weave together, so that the first ring and the fourth ring, the second ring and the third ring to match each other, to complete the sling of 9 rope slings Wire rope sling manufacturing method comprising the step. The method according to claim 1, In the first, second, third group rope production step, the rope winding direction, the wire rope sling manufacturing method, characterized in that the twisting direction of the unit rope. The method according to claim 1, In the sling completion step, the direction of weaving the first group rope, the second group rope, the third group rope together, the sling by twisting in the opposite direction to the direction of winding the rope in the first, second, third group rope production step Wire rope sling manufacturing method characterized in that the manufacturing. As a wire rope sling manufactured using the wire rope sling manufacturing method of any one of Claims 1-3, In addition to being configured in a continuous row of unit ropes, Rope body between the two loops is a wire rope sling, characterized in that the structure consisting of three pairs of three ropes each of the nine ropes.

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