KR20230096335A - Flat cable - Google Patents

Abstract

The present invention relates to flat cables. For the flat cables according to the present invention, unlike conventional flat cables, in separating the finished product core, workers must use a sharp tool such as a knife to scratch and separate the area which needs to be separated or torn when separating both cables. Therefore, the flat cables can dramatically solve the problems of increased work time and low workability, and, during installation work, the efficiency of installation work can be maximized by securing the flexibility of the cable for connection to other devices.

Description

Flat cable {FLAT CABLE}

The present invention relates to flat cables. More specifically, in the present invention, the sheath part surrounding the outer circumferential surface of the cable and the rib part connecting the two cables are integrally formed, and the optimal thickness is applied according to the material of the sheath part and the rib part, so that the operator can easily separate the two cables. It is about a flat cable with improved workability and maximized flexibility.

In general, a flat cable is a cable having two or more cores placed side by side, and the application of the flat cable is used for connecting modules installed in a solar power plant, and the cable may be in a flat form. In addition, a cable for speaker is a cable connecting a speaker and other devices such as an audio amplifier, and unlike an interconnector cable, has a simple structure and is characterized by a flat shape with many strands.

In the case of flat cables and speaker cables, one or more finished product cores may be separated and used.

In particular, in the case of a flat cable, in separating the finished product core, when separating both cables, the operator must use a sharp tool such as a knife to scratch and separate the part to be separated or torn, which increases work time and improves workability. There is this low issue.

In addition, since most of the flat cables are connected to other devices during work, it is important to secure physical properties for the flexibility of the cable as well as workability.

Patent Literature 1 proposes a technique capable of reducing working time for such a flat cable.

More specifically, the technique proposed in Patent Document 1 is formed by extruding a plurality of parallel conductors of width C parallel to each other at an arrangement pitch P, and extruding a resin around the flat conductors, and covering the flat conductors, A flat cable made of an outer sheath having a notch at the same distance from each adjacent flat conductor, wherein the number n of the flat conductors, the width W of the flat cable, and the thickness M of the margin of the flat cable are: P = C + It relates to a flat cable characterized in that it has a relationship of 2 × M, W = P × n.

However, in the case of the technology proposed in Patent Document 1, the focus is on reducing the types of dies required for a plurality of flat cables with different numbers of cores in the process of manufacturing flat cables, and work in setting up products There is a problem in that fundamental workability cannot be improved because it is a reduction in working time in flat cable manufacturing rather than a reduction in time.

Therefore, it is possible to more efficiently improve workability in installation work, and there is a need to develop technology for a flat cable with additional flexibility maximized.

Patent Document 1: Korean Patent Publication No. 10-2008-0069728 (2008.07.29.)

The present inventors intend to provide a flat cable in order to solve the problems of the prior art.

In order to solve the problems mentioned above,

The present invention,

A plurality of conductor wires spaced apart from each other and arranged in parallel; and a rib portion formed between the plurality of conductor wires, wherein the rib portion satisfies Equation 1 below.

[Formula 1]

In Equation 1, the tear strength means the tear strength of the rib material.

In addition, the present invention, the conductor wire, a conductor; an insulating portion formed to surround the conductor; And it provides a flat cable characterized in that it comprises a sheath portion surrounding the outside of the insulation portion.

In addition, the present invention provides a flat cable, characterized in that the rib portion is integrally formed with the sheath portion surrounding the outer circumferential surface of the conductor wire.

In addition, the present invention provides a flat cable, characterized in that the flat cable satisfies Equation 2 below.

[Formula 2]

In Equation 2, A means the outer diameter of the flat cable, and B means the thickness of the rib part.

In addition, the present invention provides a flat cable characterized in that the rib portion includes a notch portion.

In addition, the present invention provides a flat cable, characterized in that the notch portion is symmetrically formed to face each other at the upper and lower portions of the rib portion.

In addition, the present invention provides a flat cable characterized in that the notch portion is formed in the center of the rib portion.

In addition, the present invention provides a flat cable characterized in that a plurality of notch portions are formed in the rib portion.

In addition, the present invention provides a flat cable characterized in that the notch portion satisfies Equation 3 below.

[Formula 3]

In Equation 3, θ means an angle formed by an end of the notch portion.

In addition, the present invention provides a flat cable characterized in that the flat cable satisfies Equation 4 below when the angle θ of the end of the notch is 90°.

[Formula 4]

In Equation 4, L means the width of the notch portion.

In the case of the flat cable according to the present invention, in separating the finished product core, when separating both cables, the operator must use a sharp tool such as a knife to scratch and separate the part to be separated or torn, so the work time increases It can dramatically solve the problem of low workability, and at the same time, it is possible to maximize the efficiency of installation work by securing the flexibility of the cable for connection to other devices during installation work.

The accompanying drawings are intended to explain the contents of the present invention in more detail to those skilled in the art, but the technical spirit of the present invention is not limited thereto.
1 is a cross-sectional view of a flat cable according to an embodiment of the present invention.
2 is a cross-sectional view showing the outer diameter of the flat cable according to the present invention and the thickness of the rib portion.
3 is a cross-sectional view of a flat cable according to another embodiment of the present invention.
4 and 5 are illustrative cross-sectional views of various modified embodiments in which the notch portion is formed on the rib portion in the flat cable according to the present invention.
6 is a cross-sectional view representing an angle formed by an end of a notch in a flat cable according to the present invention.
Fig. 7 is a cross-sectional view of the flat cable according to the present invention when the angle of the end of the notch is 90°.
8 is a diagram schematically illustrating a manufacturing process of a flat cable according to the present invention.
9 and 10 show diagrams in which separation and tearing evaluation of the flat cable manufactured for evaluation according to the experimental example of the present invention is in progress.
11 is a graph showing a graph in which the average value of a section is measured for the load applied when tearing by being bitten by a tensile tester in each Example and Comparative Example.

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The following description is only for specifying the embodiments, and is not intended to limit or limit the scope of rights according to the present invention. What a person skilled in the art can easily infer from the detailed description and examples of the present invention should be construed as belonging to the scope of the present invention.

The terms used in the present invention have been described as general terms widely used in the technical field related to the present invention, but the meanings of the terms used in the present invention are the intentions of technicians working in the field, the emergence of new technologies, examination standards or precedents. etc. may vary. Some terms may be arbitrarily selected by the applicant, and in this case, the meanings of the arbitrarily selected terms will be described in detail. Terms used in the present invention should be interpreted as meanings reflecting the overall context of the specification, not just dictionary meanings.

Terms such as 'consisting of' or 'comprising' used in the present invention should not be construed as necessarily including all of the components or steps described in the specification, and if some components or steps are not included, and when additional components or steps are further included, it should also be construed as intended from the term.

The present invention relates to flat cables.

The term "cable" in this specification has the same meaning as the commonly used "wire", so the terms "cable" and "wire" may indicate the same meaning, and therefore may be used interchangeably. In addition, the "flat cable" of the present invention is a cable having a form in which a plurality of conductors are connected side by side, and may mean a form of cable connecting a solar power plant module, and additionally, a speaker may be connected to other devices such as an amplifier or a microphone. It means to include all cables used to connect with, and may mean to include all flat cables having various shapes.

1 is a cross-sectional view of a flat cable according to an embodiment of the present invention.

Referring to FIG. 1, a flat cable 100 according to the present invention includes a plurality of conductor wires 110 arranged in parallel and spaced apart from each other; And it may include a rib part 120 formed between the plurality of conductor lines.

In addition, the conductor wire 110, the conductor 111; an insulating part 112 formed to surround the conductor 111; and a sheath part 113 surrounding the outside of the insulating part 112 .

The conductor may be provided by twisting one strand or a plurality of strands.

The wire is not particularly limited, but may be, for example, copper, aluminum, or a copper alloy plated with another metal, and is preferably a copper alloy plated with copper or another metal.

When a plurality of wires are included in the conductor, the direction in which the plurality of wires are twisted may be, for example, the S direction or the Z direction, but is not particularly limited thereto.

The insulating part is not particularly limited, but may be formed from a composition for forming an insulating part including, for example, a polyethylene-based resin or a polyolefin-based resin as a base resin.

In addition, if necessary, the composition for forming the insulating part may include various additional components, and for example, additives such as an antioxidant, a UV stabilizer, a crosslinking agent, and a crosslinking aid may be included.

The content of the additive or a combination thereof is not particularly limited, but may be included, for example, in the range of about 1 part by weight to 20 parts by weight based on 100 parts by weight of the composition for forming the insulating part, and the required physical properties In terms of liver harmony and product application, the additives may be adjusted and included within an appropriate range.

In addition, if necessary, the composition for forming an insulation portion of a flat cable according to the present invention may further include other additives in addition to the above components.

The other additives include high molecular weight wax, low molecular weight wax, polyolefin wax, paraffin wax, paraffin oil, metal soap, organic silicone, fatty acid ester, fatty acid amide, fatty alcohol, reinforcing agent, release agent, UV absorber, stabilizer, pigment, dye , It may be one or more selected from the group consisting of a colorant, an antistatic agent, a foaming agent, and a metal deactivator.

The flat cable according to the present invention may include a sheath portion surrounding the outside of the insulation portion.

The sheath portion is a portion formed of a layer for protecting the insulation portion, and may be formed from a composition for a flat cable sheath.

The composition for the flat cable sheath is not particularly limited, but is, for example, a polymer resin composition in which a base resin and other additional resins are alone or mixed so as to satisfy the physical properties required for the layer forming the outermost layer of the flat cable. can

In addition, other additives may be included in addition to the polymer resin, and the type and mixed content of other additives may be appropriately selected and employed in consideration of required physical properties.

In one example, the rib part may satisfy Equation 1 below.

[Formula 1]

In Equation 1, the tear strength means the tear strength of the material of the rib part.

The rib part of the flat cable according to the present invention satisfies Equation 1 above, so that in separating the finished product core, when separating both cables, the operator can easily separate the part to be separated or torn without using a sharp tool such as a knife. Therefore, the work time is shortened and the work efficiency is high during the installation work.

In one example, the rib part may be integrally formed with the sheath part surrounding the outer circumferential surface of the conductor wire.

Accordingly, the rib portion may be formed from the above-described composition for a flat cable sheath.

The flat cable according to the present invention may satisfy Equation 2 below.

[Formula 2]

In Equation 2, A means the outer diameter of the flat cable, and B means the thickness of the rib part.

In this regard, FIG. 2 is a cross-sectional view showing the outer diameter of the flat cable according to the present invention and the thickness of the rib portion.

Referring to FIG. 2, when the outer diameter of the flat cable according to the present invention and the thickness of the rib portion satisfy Equation 2, the operator can easily separate or tear the part to be separated or torn when separating both cables (conductor wires). Since it can be separated, it is possible to shorten the work time, and at the same time, it is possible to secure the properties of the flexibility of the cable for connection to other devices during the installation work, thereby maximizing the installation work efficiency.

3 is a cross-sectional view of a flat cable according to another embodiment of the present invention.

Referring to FIG. 3 , the rib part 120 included in the flat cable according to the present invention may have a notch shape, and may include a notch-shaped part, that is, a notch part.

The notch shape is preferably applied only to the rib portion, and in the case of the notch shape, conductor wires may be included on both sides symmetrically or at the same distance based on a straight line connecting the part having the thinnest thickness.

Therefore, in one example, the flat cable according to the present invention may be symmetrically formed such that the notch portion faces each other at the upper and lower portions of the rib portion. In addition, in this case, the notch portion may be formed adjacent to the sheath portion surrounding the outer circumferential surface of the conductor wire as shown in FIG. 2 or may be formed at the center of the rib portion as shown in FIG. 3 .

In the present invention, since the rib part is formed in a notch shape, the operator can more easily separate both cables (conductor wires), and thus the working time can be reduced to a minimum.

In one example, one or more, that is, a plurality of notch parts may be formed in the rib part.

4 and 5 are illustrative cross-sectional views of various modified embodiments in which the notch portion is formed on the rib portion in the flat cable according to the present invention.

4 and 5, in the flat cable according to the present invention, one or more, that is, a plurality of notches may be formed in the rib part, so that it is appropriately selected and used according to the type of work and the request of the operator. This can increase work efficiency.

In one example, the notch portion may satisfy Equation 3 below.

[Formula 3]

In Equation 3, θ means an angle formed by an end of the notch portion.

In this regard, FIG. 6 is a cross-sectional view of a flat cable according to the present invention expressing an angle formed by an end of the notch portion.

Referring to FIG. 6, in the flat cable according to the present invention, since the characteristics of the notch portion formed in the rib portion (range of angles formed by the end portion of the notch portion) satisfy Equation 3, more efficient flat cable installation work is possible. can make it

In one example, the flat cable may satisfy Equation 4 below when the angle θ of the end of the notch is 90°.

[Formula 4]

In Equation 4, L means the width of the notch portion.

In this regard, FIG. 7 is a cross-sectional view of the flat cable according to the present invention when the angle of the end of the notch is 90°.

In the flat cable according to the present invention, when the angle (θ) of the end of the notch is 90°, Equation 4 is satisfied, so that the portion remaining at the torn portion when both cables (conductor wires) are separated during installation of the flat cable is satisfied. There are no leftovers, so the operator can do the installation work more easily.

Hereinafter, examples will be described in detail to explain the present invention in detail. However, embodiments according to the present invention can be modified in many different forms, and the scope of the present invention is not construed as being limited to the embodiments described below. The embodiments herein are provided to more completely explain the present invention to those skilled in the art.

[Manufacture Example 1] Manufacture of flat cable

In order to manufacture the flat cable according to the present invention, the first to fourth steps were performed.

A related figure is FIG. 8, and FIG. 8 is a diagram schematically illustrating a manufacturing process of a flat cable according to the present invention.

Referring to FIG. 8 , in the first step, a plurality of wires of thin conductors are combined to produce a conductor in the second step. And after the third step of extruding insulation on the conductor of the second step, a sheath process is performed on the extruded insulation in the fourth step. In this case, the flat cable according to the present invention is a conventional circular cable manufacturing process Unlike the above, two cores were produced by extruding at the same time leaving a rib in the middle.

[Experimental Example] Conductor wire separation or tear evaluation

In order to evaluate the conductor wire separation or tearing of the flat cable (Example) according to the present invention manufactured above, flat cables made of PVC (Comparative Example 1) and PO (Comparative Example 2) materials were set and evaluated as comparative examples did

More specifically, as shown in FIG. 9, the evaluation of the separation or tearing of the conductor wire was conducted in two ways. First, when the core and rib of the two flat cables are torn by a tensile tester, the method of measuring the average value of the section of the applied load It was performed, and additionally, as shown in FIG. 10, the user directly teared it by hand.

[Evaluation results]

The results according to the evaluation of Examples and Comparative Examples are shown in [Table 1] below.

division Tear strength (N/mm) Production thickness (mm) Tear load (N) Pass or Fail Example 18.9 0.51 9.828 Pass Comparative Example 1 59.4 0.4 23.76 Fail Comparative Example 2 67 0.5 33.5 Fail

In particular, in each Example and Comparative Example, the average value of the interval for the load applied when torn by the tensile tester was measured (see FIG. 11, in FIG. It is a graph of the interval average value for Examples 1 and 2).

As a result of the measurement, in the case of Comparative Examples 1 and 2, it was found that the thickness was thicker than the tear strength of each material, and the tear load had a value greater than 9.8N (23.76, 33.5N). was found to be difficult to tear. On the other hand, in the case of the embodiment, it was confirmed that the tearing strength of each material was made by forming a rib portion within an appropriate level of thickness compared to the tearing strength of each material, so that it would be easy to tear by hand.

Additionally, as a result of tearing evaluation by the actual operator's hand, it was finally confirmed that it was easily torn by the operator's hand force only in the embodiment as shown in FIG. 10.

As can be seen in [Table 1] and the evaluation results of the experimental examples, the flat cable according to the present invention, unlike the conventional flat cable, in separating the finished product core, when separating both cables, the operator separates or Since the area to be torn must be scratched and separated using a sharp tool such as a knife, the problem of increased work time and low workability can be dramatically solved, while at the same time, the flexibility of the cable for connection to other devices during installation work is improved. It is possible to maximize the installation work efficiency by securing the physical properties of the product.

The above description of the present application is for illustrative purposes, and those skilled in the art will understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present application. Therefore, the embodiments described above should be understood as illustrative in all respects and not limiting. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as distributed may be implemented in a combined form.

The scope of the present application is indicated by the following claims rather than the detailed description above, and all changes or modifications derived from the meaning and scope of the claims and equivalent concepts thereof should be construed as being included in the scope of the present application.

100: flat cable
110: conductor wire
111: conductor
112: insulation
113: sheath
120: rib part

Claims (10)

A plurality of conductor wires spaced apart from each other and arranged in parallel; and
A rib formed between the plurality of conductor wires;
The rib portion, a flat cable that satisfies Equation 1 below:
[Formula 1]

In Equation 1, the tear strength means the tear strength of the rib material.
The method of claim 1, wherein the conductor wire comprises: a conductor; an insulating portion formed to surround the conductor; and a sheath portion surrounding the outside of the insulation portion.
The flat cable according to claim 2, wherein the rib part is integrally formed with a sheath part surrounding an outer circumferential surface of the conductor wire.
The flat cable according to claim 3, characterized in that the flat cable satisfies Equation 2 below:
[Formula 2]

In Equation 2, A means the outer diameter of the flat cable, and B means the thickness of the rib part.
The flat cable according to claim 1, wherein the rib portion includes a notch portion.
The flat cable according to claim 5, wherein the notch portion is symmetrically formed at upper and lower portions of the rib portion so as to face each other.
7. The flat cable according to claim 6, wherein the notch portion is formed at the center of the rib portion.
The flat cable according to claim 6, wherein a plurality of notches are formed in the rib portion.
The flat cable according to claim 5, wherein the notch portion satisfies Equation 3 below:
[Formula 3]

In Equation 3, θ means an angle formed by an end of the notch portion.
The flat cable according to claim 9, wherein the flat cable satisfies the following Equation 4 when the angle θ of the end of the notch is 90°:
[Formula 4]

In Equation 4, L means the width of the notch portion.

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