KR200461231Y1 - Improved fillers spray type compound wire rope - Google Patents

Abstract

Improved filler coating compound wire rope according to the present invention by twisting a plurality of small bundles of spiral wires and applying a filler to form a core portion, and to form a strand by forming a fiber coating layer on the outside of the core portion, a number of strands It is formed by twisting in a spiral. As a result, even though the same amount of wire material is used, it has excellent flexibility, wear resistance, and corrosion resistance, and has excellent tensile strength and rust resistance, and thus, there is an advantage in that it is easy to manufacture various types of rope structures.

Description

IMPROVED FILLERS SPRAY TYPE COMPOUND WIRE ROPE}

The present invention relates to an improved filler coating compound wire rope. More specifically, an improved filler-coated compound wire which twists multiple strands and strands having a smaller cross-sectional area in multiple and increases the tensile strength and improves abrasion resistance, flexibility and durability by applying fillers between the strands. It's about ropes.

Ropes have some differences in shape and configuration depending on the purpose and function used, but the construction of ropes that are heavily tensioned can be applied to the inner core (called the core) and the outer core to increase the strength of the inner core. It is configured to be convenient for the user to hold or use the rope by being composed of a cotton yarn (thread) covered with.

In particular, when the tensile force required for the rope is large, the rope is to be used as one rope by twisting several strands (thread) of the strands to the outside of the inner core of several strands.

In the structure of such a rope, the outer surface of human hands is twisted with several strands of cotton yarn (thread) to form a rope, but it is insufficient to increase the strength of the rope, so it is easily damaged due to weak strength. When the yarn twisted into several strands is damaged, there is a problem that may occur due to a shortening of the life of the rope, that is, a problem of safety, appearance, and the like.

In addition, when such a problem is severe, there is a problem in that economics are deteriorated because a lot of maintenance costs for facilities or other structures in which the rope is used because the rope does not perform a function of the rope.

In order to solve this problem, a wire rope 2 as shown in FIG. 1 has recently been developed. The wire rope 2 shown in FIG. 1 is arranged with a single strand (meaning a rope or rope formed by twisting multiple strands of wires: 4) at the center and having six strands 4 surrounding the outside of each other. It is a twisted rope. Therefore, the total number of strands 4 required is seven.

In addition, the strand 4 consists of a core part 6 which consists of a bundle of wire | wire bundles inside, and the fiber coating layer 12 which surrounds the exterior of the core part 6, The core part 6 is the center part of the inside. 19 individual strands 10 are twisted and formed around a single central element 8 positioned at. Therefore, this strand 4 is also called 1x19x7 strand.

However, the conventional wire rope 2 composed of such 1 × 19 × 7 strands 4 has some problems.

First, the conventional wire rope 2 has a problem in that the number of strands is small and the cross-sectional area of each strand is low, thereby decreasing flexibility. However, because of the nature of the rope is often installed in a place where flexibility is required, it can be said to be a fatal problem as a rope.

Second, when tensile force is applied to the conventional wire rope 2, frictional force is generated between the element wires 8 and 10 formed inside the strand 4, in particular, each twisted element wire 8 and 10 is in the longitudinal direction. When it is pulled in, longitudinal tension of the linear component is generated, and thus strong frictional force is generated between the element wires 8 and 10. This eventually causes the wear of each element (8, 10) has a problem that the life of the rope is shortened and the durability is weak.

Third, the conventional wire rope 2 composed of 1 × 19 × 7 strands 4 has a small number of strands, so that even if they have the same strand cross-sectional area, the tensile strength is weak.

Accordingly, an object of the present invention is to provide an improved filler coated compound wire rope capable of increasing the tensile strength by twisting multiple strands and strands having a smaller cross-sectional area and applying fillers between the strands. It is done.

In addition, an object of the present invention is to provide an improved filler coated compound wire rope that improves wear resistance, flexibility, and durability while using the same amount of wire material.

The object is to form a core by spirally twisting a plurality of strand bundles and applying a filler, and to form a strand by forming a fiber coating layer on the outside of the core, and to form a strand by spirally twisting a plurality of strands. An improved compound wire rope is achieved.

The element bundle portion may be twisted in a spiral form six element wires of the same cross-sectional area around one element wire.

The core part spirally twists the same six wire bundles around a single wire bundle, and may be formed by applying a filler between each wire bundle.

There are seven strands in total, and a single strand in the center and six strands about the strand may be spirally twisted.

The fiber coating layer is preferably any one of polyethylene (PE), polyester (PET), and polyamide (PA).

Preferably, the element wire is a hot dip galvanized wire or a stainless wire.

According to the improved filler coating compound wire rope according to the present invention, the strand and the bundle bundle having a smaller cross-sectional area are multiplely twisted, and the tensile strength can be increased by applying a filler between the bundle bundles.

In addition, according to the improved filler-coated compound wire rope according to the present invention can be improved wear resistance, flexibility, durability while using the same amount of wire material.

1 is a side cross-sectional view showing the configuration of a conventional wire rope,
Figure 2 is a side cross-sectional view showing the configuration of the improved filler-coated compound wire rope according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail for the improved filler coating compound wire rope according to the present invention.

Figure 2 is a side cross-sectional view showing the configuration of the improved filler-coated compound wire rope according to an embodiment of the present invention. As shown in FIG. 2, the improved filler-coated compound wire rope 20 according to an embodiment of the present invention is twisted in multiple strands and strands having a smaller cross-sectional area and fills between each strand. It is a compound wire rope that increases tensile strength and improves abrasion resistance, flexibility and durability by applying.

The improved filler coating compound wire rope 20 according to an embodiment of the present invention forms a core portion 28 by twisting a plurality of small bundle bundles 22 in a spiral manner and applying a filler 26 to the core wire 28. The strand 32 is formed by forming the fiber coating layer 30 on the outside of the core portion 28, and is formed by twisting a plurality of strands 32 in a spiral manner.

That is, the improved filler-coated compound wire rope 20 according to an embodiment of the present invention is made by combining a plurality of individual strand strands according to the use by a composite strand production system, a single strand 32 arranged in the center Six individual strands 32 are spirally twisted around the to form a compound wire of the finished product.

At this time, in the case of the strand 32 located in the center, the cross-sectional area of each element wire 24 may be larger than that of the strand 32 twisted with respect to the strand 32 in the center. .

On the other hand, any one strand 32 is a plurality of strand bundle portion 22 is twisted in the complex, preferably the strand bundle portion 22 is six of the same cross-sectional area around one strand 24 The element wire 24 is constructed by being twisted in a spiral shape.

Ultimately, compared to the element wire constituting the conventional steel wire rope, the element wire 24 of the present invention has a larger number, the cross-sectional area is configured to be smaller, thereby increasing the flexibility of the entire improved filler coating compound wire rope 20 do.

On the other hand, the filler 26 is applied between each element wire 24 or each element bundle portion 22, the filler 26 reduces the friction between the element bundle 22 or element wire 24, It is possible to prevent dust from entering the wire 24 and the infiltration of dirt due to damage to the outer fiber coating layer 30, and to increase the binding force between the wire strand and the fiber coating layer 30 by the adhesiveness of the filler 26. do.

In particular, each element wire 24 twisted into a spiral structure when the tensile force in the longitudinal direction is applied, the friction force in proportion to the tensile force is applied between each element wire 24, the wear rate is very high, but the filler material of the present invention ( 26 can effectively prevent frictional contact between each element wire 24 or each element bundle portion 22 to exhibit excellent wear resistance.

In addition, even if the fiber coating layer 30 is partially damaged, the element wire 24 or the element bundle portion 22 are not directly exposed to foreign matters, so that the corrosion resistance is excellent and the rust resistance is excellent.

Preferably, the core portion 28 spirally twists the same six strand bundles 22 around a single strand bundle 22. Therefore, the improved compound wire rope 20 according to one embodiment of the present invention can be expressed as a 7 × 7 × 7 structure. This can be variously changed, such as a 7 × 7 × 19 structure.

At this time, the fiber coating layer 30 can be used without limitation any of synthetic resin materials including polyethylene (PE), polyester (PET), polyamide (PA).

More preferably, the element wire 24 is a hot dip galvanized wire or stainless steel wire is suitable because it is highly corrosive.

That is, the improved filler-coated compound wire rope 20 according to an embodiment of the present invention has a superior flexibility, wear resistance, corrosion resistance, and even more excellent tensile strength, even though the same amount of wire material is used, It can be easily used to manufacture rope structures.

On the other hand, the improved filler coating compound wire rope according to the present invention can be used for marine large net fishing. Conventional fishing ropes use nylon fibers because they are light and float on water, so they use a separate metal having a larger specific gravity, but the wire rope according to the present invention may contain steel wires, so that the fishing net may sink even by its own weight. In addition, the compound wire rope according to the present invention has an advantage of easy maintenance due to the easy installation of shellfish because the fiber rope is provided on the outside. Since the size of the fishing net is smaller than that of the existing fishing ropes, the resistance of seawater is less affected by the movement of fishing nets, and the impact of algae or currents can be reduced, thus reducing the fuel consumption of fishing boats.

As described above, the present invention has been described in detail through the preferred embodiment, but the present invention is not limited thereto and may be variously implemented within the utility model registration claims.

20: Improved Filler Application Compound Wire Rope
22: wire bundle 24: wire
26: filling material 28: core part
30 fiber coating layer 32 strand

Claims (6)

A plurality of strand bundles 22 are spirally twisted and the filler 26 is applied to form the core portion 28, and the fiber coating layer 30 is formed outside the core portion 28 to form the strands 32. ), And is formed by spirally twisting a plurality of strands (32) composed of six strands spirally twisted about a single strand in the center, characterized in that the improved filler coated compound wire rope.
The method of claim 1,
The element bundle 22 is an improved filler coating compound wire rope, characterized in that the six element wires 24 of the same cross-sectional area is twisted in a spiral around one element wire 24.
The method of claim 1,
The core portion 28 spirally twists the same six strand bundles 22 around a single strand bundle 22, by applying a filler 26 between the strand bundles 22. Improved filler coating compound wire rope, characterized in that made.
delete A plurality of strand bundles 22 are spirally twisted and the filler 26 is applied to form the core portion 28, and polyethylene (PE), polyester (PET), An improved filler-coated compound wire rope, characterized in that the strand 32 is formed by forming a fiber coating layer 30 of any one of polyamide (PA), and is formed by spirally twisting a plurality of strands 32.
The method of claim 2,
The element wire 24 is a hot dip galvanized wire, or a stainless steel wire, improved filler coating compound wire rope.

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