KR102598400B1 - Rope and manufacturing mehtod thereof - Google Patents

Abstract

The present invention relates to a method of manufacturing a rope, and more specifically, it is composed of three or more strands twisted together, and at least one of the three or more strands is a night-time visibility strand, and the night-time visibility strand includes a reflector and a pigment. In addition, the pigment is characterized in that it is one or more types of luminous pigments and phosphorescent pigments. According to the present invention, even though it does not absorb enough light during the day, it has excellent visibility at night, ensuring safety in industrial sites when applied to construction sites, ships, etc., and has the advantage of enabling long-term use due to its excellent tensile strength and durability. there is.

Description

Rope and manufacturing method thereof}

The present invention relates to a method of manufacturing a rope, and more specifically, to a method of manufacturing a rope that contains a fluorescent or luminescent pigment and a reflector, has excellent night visibility, and is also excellent in durability.

Rope is made by stranding several strands of wire as a core wire, and has multiple strands stranded around it. There are many different types of rope. It is widely used in various industrial fields that require high tensile strength.

In particular, luminescent ropes are made by applying or covering some elements of the rope with a fluorescent or luminescent material so that the wire rope can be identified even at night or in dark places. When applied to road guidelines, construction sites, ships, etc., it is used at night. Demand is expected to gradually increase as it is effective in preventing safety accidents during work or in dark places.

Looking at pre-registered technologies related to these luminescent wire ropes, there are methods for manufacturing luminescent wire ropes in Republic of Korea Patent No. 10-0937494, Republic of Korea Patent No. 10-1325751, etc.

These pre-registration technologies cover wire ropes with fluorescent or luminescent pigments to form a coating layer, or replace some of the strands with resin containing fluorescent or luminescent pigments to facilitate nighttime identification, or to absorb light during the day. The length of time the light emission was maintained was not constant depending on the amount, making it difficult to control the planned emission time, making its use ineffective. In addition, there was a disadvantage that long-term use was impossible as the coating layer was discolored, damaged, or peeled off due to external conditions such as rain or hot midday sunlight.

KR 10-0937494 B1 KR 10-1325751 B1

Therefore, the purpose of the present invention is to provide a method of manufacturing a rope that has excellent nighttime visibility and excellent tensile strength and durability even if it does not sufficiently absorb light during the day.

The rope of the present invention for achieving the above object is composed of three or more strands, at least one of the three or more strands is a night-time visibility strand, and the night-time visibility strand includes a reflector and a pigment, The pigment is characterized in that it is one or more types of luminous pigments and phosphorescent pigments.

The night-time visibility strand is a strand impregnated with a night-time visibility composition, and the night-time visibility composition includes a bisphenol-based epoxy resin, a reactive diluent, an amine-based curing agent, a reflector, and a pigment.

The strand impregnated with the night-time visibility composition is characterized in that it is a surface-activated strand treated with atmospheric pressure low-temperature plasma.

The night-time visibility composition is characterized in that it further includes core-shell structured rubber particles and tetrabutylphosphonium tetrafluoroborate.

The method for producing a rope according to the present invention includes preparing three or more strands, impregnating one or more of the strands with a night-time visibility composition, and drying the strand impregnated with the night-time visibility composition to prepare a night-time visibility strand. A step of manufacturing a rope by twisting the prepared night-time visibility strand and the prepared remaining strand, wherein the night-time visibility composition includes a bisphenol-based epoxy resin, a reactive diluent, an amine-based curing agent, a reflector, and a pigment, , the pigment is characterized in that it is one or more types of luminous pigments and phosphorescent pigments.

The night visibility composition is characterized in that it further contains core-shell structured rubber particles and tetrabutylphosphonium tetrafluoroborate.

In the step of impregnating one or more of the strands with a night-time visibility composition, the strand is treated with low-temperature plasma at atmospheric pressure and then impregnated with the night-time visibility composition.

According to the method of manufacturing the rope of the present invention, even if it does not absorb enough light during the day, it has excellent visibility at night, ensuring safety in industrial sites when applied to construction sites, ships, etc., and has excellent tensile strength and durability for long-term use. There is an advantage to this being possible.

Hereinafter, the present invention will be described in detail.

The rope according to the present invention is twisted by including one or more strands containing a reflector and a luminous or phosphorescent pigment, so that it can be identified at night even if it does not sufficiently absorb light during the day, and has excellent tensile strength and durability. There is a characteristic.

More specifically, the rope of the present invention is composed of three or more strands, and at least one of the three or more strands is a night-time visibility strand, and the night-time visibility strand includes a reflector and a pigment, and the pigment is a luminous pigment. , characterized in that it is one or more types of phosphorescent pigments.

First, the strand is polypropylene, polyester, nylon, Vinylon, vectran, aramid, polyester spun, ultrahigh It can be manufactured by twisting a wire composed of one or more types of fibers among molecular weight polyethylene, biodegradable yarn, carbon fiber, hemp, and cotton, and the type of fiber is not limited. In addition, since the strand is common in the field to which this technology belongs, detailed description thereof will be omitted.

The rope of the present invention is constructed by twisting three or more of the above-mentioned strands in the same way as a general rope. However, it is characterized in that one or more of the three or more strands described above is composed of a strand that ensures visibility at night.

At this time, it should be noted that the strand used as the core when twisting the rope may be a regular strand, or a night-visibility strand may be used, and this is also not limited.

The night-time visibility strand includes a reflector and a pigment, and the pigment includes at least one of a luminous pigment and a phosphorescent pigment. Specifically, the night-time visibility strand is a strand impregnated with a night-time visibility composition, and the night-time visibility composition includes a reflector and a pigment.

That is, when conventional luminescent pigments or only luminous pigments are included, luminescent and fluorescent abilities cannot be exerted for a long time if they do not sufficiently absorb light during the day. The present invention improves these shortcomings by applying these pigments together with a reflector. Even if photoluminescent or luminous performance is reduced, sufficient nighttime visibility is ensured by reflecting nighttime light through a reflector.

One or more types of glass, aluminum, or silver can be used as the reflector, and it is preferable to use one with a particle size of 100 to 350㎛. If the particle size exceeds the above, sufficient impregnation and nighttime visibility cannot be secured. Because there is none.

In addition, the phosphorescent pigment is preferably one that exhibits a luminance of 5 to 10 millicandelas (MCD) when exposed to 350 to 450 LUX of light, but this is not necessarily limited, and various previously published phosphorescent pigments can be applied. This is it. However, in order to improve the photoluminescence performance, an alkaline earth metal doped with a rare earth element selected from the group consisting of europhenium (Eu), gadolinium (Gd), dysprosium (Dy), terbium (Tb), and eternium (Yb) is used. Inorganic phosphorescent pigments that are composites of alumina components can be used. At this time, the complex of the alkaline earth metal alumina component is a complex of one or more salts selected from the group consisting of aluminum oxide, potassium oxide, strontium oxide, and magnesium oxide, such as Al ₂ O ₃ CaO, Al ₂ O ₃ MgO, and SrAl ₂ O. ₄ , a complex of salts such as SrAl ₂ O ₄ (OH) or Al ₂ O ₃ CaOSrOB ₂ O ₃ can be used, most commonly an alumina component doped with rare earth elements (Al ₂ O ₃ -SrO ₃ -B ₂ O ₃ ) photoluminescent pigment is used. The photoluminescent pigment composed of the above components is doped with rare earth elements and has excellent photoluminescent performance in terms of afterglow brightness, afterglow time, and light resistance. In addition, it is preferable to use the photoluminescent pigment having a particle size of 100 to 350 μm, because the photoluminescent pigment having the above particle size is easily impregnated into the strand.

In addition, the luminous pigment can also be applied to various types of luminous pigments that have been previously published, and it is natural that one type of luminous pigment and luminous pigment can be selected and used, or both types of luminous pigment and luminous pigment can be used.

In addition, when the above-mentioned reflector and pigment are applied to the surface of the strand as a general adhesive, there is a disadvantage in that the durability is not good, such as the application layer is easily peeled off or damaged. As the night visibility composition, a bisphenol-based epoxy resin, a reactive diluent, It is preferable to use one containing an amine-based hardener, a reflector, and a pigment.

The bisphenol-based epoxy resin is a basic resin that makes up the composition, exists in a liquid state at room temperature, and has excellent water resistance and adhesiveness, thereby increasing durability. Examples of the bisphenol-based epoxy resin include bisphenol A-type epoxy resin or bisphenol F-type epoxy resin, and the equivalent weight may be 70 to 180 g/eq, but this is not limited. Hereinafter, 'parts by weight' of the night-time visibility composition is based on 100 parts by weight of the bisphenol-based epoxy resin.

The reactive diluent maintains the excellent physical properties of the epoxy resin while lowering the viscosity of the composition to facilitate impregnation, and includes a bifunctional epoxy group in the form of an aliphatic glycidyl ether, for example, aliphatic glycidyl ether. It is preferable to use (aliphatic glycidyl ether), etc. The reactive diluent is preferably contained in an amount of 1 to 50 parts by weight.

The amine-based curing agent may be an aliphatic amine-based curing agent, examples of which include ethylene diamine and diethylene triamine. The amine-based curing agent is preferably included in an amount of 20 to 50 parts by weight. The equivalent weight of this amine-based curing agent may be 200 to 400 g/eq,

Since the reflector and pigment have been previously described, further description thereof will be omitted. Considering the nighttime visibility, it is preferable that the reflector in the composition is included in an amount of 1 to 20 parts by weight, and the pigment is also included in an amount of 1 to 20 parts by weight.

In order to exhibit excellent impregnation and permeability, the night-time visibility composition of the present invention preferably further contains 1 to 3 parts by weight of tetrabutylphosphonium tetrafluoroborate. Through this, the viscosity is controlled and the impregnability and permeability are increased so that the composition penetrates deep into the strand and is impregnated in large quantities, thereby demonstrating excellent durability.

In addition, the night visibility composition of the present invention preferably further contains 1 to 10 parts by weight of core-shell structured rubber particles. The rubber particles of the core-shell structure described above exhibit significantly excellent tensile strength, etc., thereby demonstrating excellent durability.

The core-shell structure rubber particle refers to a core-shell structure rubber particle in which the glass transition temperature of the core and the shell is different. It may be a core-shell structure particle containing a multi-layer structure of two or more layers, and may have a core-shell structure of three or more layers. It may include a multi-layer structure, and in the case of particles having a core-shell structure including three or more layers, the shell refers to the outermost shell.

As the resin component constituting these rubber particles, an allyl-based resin is usually preferably used as the core. Additionally, the shell of the rubber particle may have a functional group that reacts with the epoxy group in the epoxy resin. The functional group that reacts with the epoxy group is not particularly limited, but examples include amino group, urethane group, imide group, hydroxyl group, carboxyl group, and epoxy group. These epoxy groups and reactive functional groups may be used individually or in combination of two or more.

The method of polymerizing the core-shell structured rubber particles is well known in the field to which this technology belongs, and can be easily purchased commercially, such as Pararoid EXL 2300G, so further description thereof will be omitted.

In addition, it is preferable that the strand impregnated with the night-time visibility composition is a strand whose surface has been activated by atmospheric pressure low-temperature plasma treatment.

In other words, activating the surface in this way not only increases the impregnability of the night-time visibility composition, but also provides excellent adhesion, preventing the composition from easily separating or falling off, thereby improving durability.

As described above, the rope of the present invention, configured as described above, sufficiently absorbs daytime light by a phosphorescent pigment or luminous pigment and emits it at night, or sufficiently reflects nighttime light by a reflector to significantly increase nighttime visibility. Of course, it has the advantage of excellent adhesion to pigments and reflectors, and excellent durability due to excellent tensile strength.

Hereinafter, the method for manufacturing the rope according to the present invention will be described in detail.

The method for producing a rope according to the present invention includes preparing three or more strands, impregnating one or more of the strands with a night-time visibility composition, and drying the strand impregnated with the night-time visibility composition to prepare a night-time visibility strand. A step of manufacturing a rope by twisting the prepared night-time visibility strand and the prepared remaining strand, wherein the night-time visibility composition includes a bisphenol-based epoxy resin, a reactive diluent, an amine-based curing agent, a reflector, and a pigment, , the pigment is characterized in that it is one or more types of luminous pigments and phosphorescent pigments.

That is, first, three or more strands are prepared, and at least one of them is impregnated with a night-time visibility composition. At this time, the impregnation method is not limited, and it is sufficient to immerse the strand in the night-time visibility composition for 1 to 30 seconds.

At this time, the night-time visibility composition includes a bisphenol-based epoxy resin, a reactive diluent, an amine-based curing agent, a reflector, and a pigment, and the pigment is one or more types of luminous pigments and phosphorescent pigments, and the specific composition is sufficiently described above. Since this has been explained, further description thereof will be omitted. In addition, it is natural that the night-time visibility composition may further include core-shell structured rubber particles and tetrabutylphosphonium tetrafluoroborate.

Then, the strand is dried and hardened at 60°C for about 2 hours to produce a night-visible strand.

Next, a rope is manufactured by twisting the prepared night visibility strand and the remaining prepared strand in a general manner.

Meanwhile, in the step of impregnating one or more of the strands with a night-time visibility composition, the adhesion and impregnation properties are improved when the strand is treated with low-temperature plasma at atmospheric pressure and then impregnated with the night-time visibility composition.

At this time, atmospheric pressure low-temperature plasma generates low-temperature plasma while maintaining the gas pressure at 100 Torr to 760 Torr, and the strand is plasma treated at 50 to 100 ° C. for 1 to 60 seconds. At this time, argon, an inert gas, can be used as the gas.

The rope of the present invention manufactured as described above has excellent nighttime visibility, durability, and economic efficiency, and has the advantage of being easy to use throughout industries that require nighttime safety, such as construction sites and ships.

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

The scope of the present invention is indicated by the claims described below, and all changes or modified forms derived from the meaning and scope of the claims and their equivalent concepts should be construed as being included in the scope of the present invention.

Claims (3)

Preparing three or more strands,
Impregnating one or more of the strands with a night visibility composition;
manufacturing a night-time visibility strand by drying the strand impregnated with the night-time visibility composition;
manufacturing a rope by twisting the prepared night visibility strand and the prepared remaining strand;
Including,
The night visibility strand is,
The strand is impregnated with a night-visibility composition,
The night visibility composition includes a bisphenol-based epoxy resin, a reactive diluent, an amine-based curing agent, a reflector, and a pigment,
The strand impregnated with the night-time visibility composition is a surface-activated strand treated with atmospheric pressure low-temperature plasma,
A method of producing a rope, characterized in that the pigment is one or more types of luminous pigments and phosphorescent pigments.
According to paragraph 1,
The night visibility composition,
A method of producing a rope, characterized in that it further comprises core-shell structured rubber particles and tetrabutylphosphonium tetrafluoroborate.
According to paragraph 1,
In the step of impregnating one or more of the strands with a night visibility composition,
A method of producing a rope, characterized in that the strand is subjected to atmospheric pressure low-temperature plasma treatment and then impregnated with a night-time visibility composition.