KR101051041B1 - A admixture composite for cabe trough concrete with induction property of electrical current - Google Patents

Abstract

PURPOSE: An additive composition with the current induction characteristic for cable through concrete is provided to reduce the electromagnetic induction phenomenon of an internal cable and protecting a through cable by mixing inorganic fiber and metal fiber-phase materials in a through main body. CONSTITUTION: An additive composition includes inorganic fiber-phase materials, single or composite fiber of steel fiber or carbon fiber, an argillaceous reinforcing agent, and a hydroxide additive. The argillaceous reinforcing agent is one or two or more selected from sodium bentonite, calcium bentonite, and montmorillonite. The hydroxide additive is one or two or more selected from magnesium hydroxide, calcium hydroxide, and aluminum hydroxide.

Description

Cable Trough Concrete Additive Composition with Current Induction Properties {A Admixture Composite for Cabe Trough Concrete with Induction Property of Electrical Current}

The present invention relates to a device for preventing induction in the cable in the trough, in particular, by mixing the inorganic fiber and metal fiber material in the trough body made of concrete, as well as physical protection and storage performance of the trough cable This prevents the induction current induced by the current induction phenomenon, and when the lightning current or ground current flows along the magnetic material installed in the trough, more powerful electromagnetic induction may occur in the cable, which may lead to challenges such as inorganic fibers and metal fibers. The present invention relates to a cable trough concrete additive composition having a current inducing property which can reduce the electromagnetic induction phenomenon of the inner cable by making the current density similar to each other by electrically connecting the magnetic material of the lid and the body using the material.

In the related art, when a ground fault or a lightning strike occurs, a surge is induced through a ground wire and an electromagnetic induction phenomenon occurs, causing frequent damage to related equipment.

Among them, the conventional technique of preventing surge is a state that the damage is greatly reduced by the development of the grounding method, the grounding technique and the surge protector.

However, the problem caused by electromagnetic induction is still taking measures only in the manner of distance separation.

A weak current wire such as a signal line or a communication line may generate an induced current by the action of an external electromagnetic field, causing noise to the signal line or the communication line, or damage to the signal communication equipment.

Therefore, there are provisions for inductive obstacle prevention facilities in the electrical equipment technical standards, and these regulations stipulate to install weak current cables at a certain distance from the strong current cables.

Feeding wires and catenary wires for AC electric rails The overhead insulation wires for AC electric rails should be sufficiently separated from the existing weak electric current lines to prevent communication obstacles caused by the induction action. It is regulated to limit the current flowing or to install in other suitable ways. However, this is not a fundamental solution to the problem of electromagnetic induction. A more fundamental solution is needed.

SUMMARY OF THE INVENTION An object of the present invention is to solve such conventional problems,

By incorporating the low current wire directly into the trough concrete and introducing the induction prevention trough in the initial design, this problem can be fundamentally solved. Existing cable troughs are only responsible for accepting cables and keeping them physically secure. In the present invention, an induction prevention function has been added.

Since the induced electromotive force E generated by electromagnetic induction is proportional to the change in the linkage flux according to Faraday's law, the solution to the problem of electromagnetic induction is to reduce the amount of change in the magnetic flux linking the weak current wire. It is an object of the present invention to provide an induction prevention trough that can reduce the inductor power induced in the weak current wire by mixing a material capable of blocking magnetic flux inside to prevent damage or noise of related equipment.

In addition, if a lightning current or ground current flows along the magnetic material incorporated into the trough concrete, more powerful electromagnetic induction may occur in the cable, but if the current flowing along the trough's magnetic material flows equally to the area in the lid and body, If the current, i.e. the current density, is the same, there will be no induction problem in the cable existing inside, so use inorganic fiber to secure concrete uniformity and conductive material such as metal fiber throughout the concrete. By electrically connecting the magnetic materials, the current density of each flowing can be made the same, and the purpose of reducing the electromagnetic induction phenomenon of the internal cable is provided.

According to an aspect of the present invention,

25-50% by weight of haemulstones which are inorganic fiber minerals; 25 to 50% by weight of a fiber of steel fiber or carbon fiber alone or in a mixture thereof; 5-20% by weight of clay reinforcement; The composition comprising 0.5 to 5% by weight of the hydroxide additive is used in the trough concrete basic design to provide a concrete composition to use 10% by weight relative to the amount of unit cement.

In one embodiment, the fiber length of the mineral fibrous mineral haemulseok is used in the range of 0.1 millimeters to 5.0 millimeters, but preferably in the range of 0.5 millimeters to 2.0 millimeters.

In one embodiment, the steel fiber is 0.5 mm or more in diameter and 30 mm or more in length is one or two or more selected from steel fiber, general carbon fiber.

In one embodiment, the clay reinforcing material is one or two or more selected from sodium bentonite, calcium bentonite, montmorillonite.

In one embodiment, the hydroxide additive is alone or two or more selected from calcium hydroxide, magnesium hydroxide, aluminum hydroxide.

According to the present invention, the cable trough concrete additive composition having a current inducing property is used in the early stages of concrete pouring by the production of calcium-magnesium-silicate hydrate produced by hydration reaction with cement material by using calcite, which is an inorganic fibrous material. By increasing the concrete viscosity and integrating with the cement matrix, the shrinkage is reduced to reduce the cracking of the concrete, and at the same time, it has the effect of uniformly dispersing the mixed steel fibers in the concrete.

In this way, the present invention effectively prevents the rapid evaporation of moisture in the concrete by the absorption swelling action of bentonite, a clay reinforcing material, and effectively achieves the flow of current, and also by the use of hydroxide additives, the rapid evaporation of moisture absorbed in the porosity. It has the effect of further improving the efficacy of preventing.

As a result, the cable trough concrete additive composition of the present invention is excellent in the current induction characteristics of the concrete, and excellent in preventing the evaporation of moisture in the concrete, respectively by electrically connecting the magnetic material of the lid and body of the trough concrete The flowing current density can be the same and also has a suitable effect to reduce the electromagnetic induction phenomenon of the inner cable.

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Hereinafter, the present invention will be described in detail.

The cable trough concrete additive composition according to the present invention is an inorganic fibrous material that forms calcium-magnesium-silicate hydrates by chemical bonding with cement materials to improve the viscosity of concrete, and steel fibers and carbon fibers having strong electrical conductivity. It is composed of clay mineral which is absorbable as mineral itself and absorbs water when it comes in contact with water, and exhibits swelling property and hydroxide additive which delays rapid evaporation of absorbed water.

In order to maintain a constant electrical conductivity in the concrete composition in which the steel fibers and carbon fibers are mixed, there should be no sedimentation separation due to the difference in specific gravity of each of the constituent materials, and also to prevent the rapid evaporation of moisture during concrete hardening. The use of fiber prevents sedimentation of steel fiber and carbon fiber by maintaining viscosity at the beginning of concrete pouring, and maintains moisture and evaporates moisture by using clay reinforcement material with excellent moisture damping effect and hydroxide additive to maintain moisture performance. The object of the present invention was achieved by blocking.

The mineral fiber used in the present invention, haemulseok is a hydrous magnesium silicate and is a clay mineral characterized by its fibrous form and unusual ribbon structure.

The main chemical composition of the symmetrical stone is magnesium silicate hydrate and the formation structure is very complex, the formation structure is Mg ₈ Si ₂ O ₃₀ (OH) ₄ (OH ₂ ) ₄ · 8H ₂ O, the formation structure of asbestos Mg ₆ Si ₄ O _{As 10} (OH) ₈ , the crypts have more OH groups than asbestos, and the MgO content is less than that of asbestos.

In the present invention, the mechanism of maintaining the initial viscosity of the concrete by forming a cross-linked complex hydrate with the cement hydrate on the surface of the inorganic fiber by forming a calcium-magnesium-silicate hydrate on the surface of the inorganic fiber by the reaction of the cement hydrate and the inorganic fiber Is to utilize.

Such inorganic fibers are used to be 25 to 50% by weight of the total crack reducing material composition, the composition of the present invention is compared with the amount of cement in concrete in order to exhibit a viscosity retention effect for uniform distribution of steel fibers and carbon fibers Based on the use of 10% by weight of the composition of the present invention, when the content of the inorganic fiber in the composition of the present invention is less than 25% by weight, the viscous expression is weak and the uniform dispersion and mixing effect of the fibers is insignificant, If it exceeds 50% by weight, the fluidity, which is another property of concrete, is lowered. Preferably the content of the inorganic fiber is 35 to 45% by weight.

Steel fibers and carbon fibers are commonly used to increase concrete electrical conductivity.

Such steel fibers and carbon fibers are used so as to be 25 to 50% by weight alone or in a combination thereof. If the content is less than 25% by weight, the electrical conductivity is weak. The conductivity is too high, there is a disadvantage that the fiber protrudes on the concrete surface.

Preferably the steel fiber and carbon fiber is 35 to 45% by weight alone or in combination of the two.

On the other hand, the composition of the present invention uses a reinforcement and additives to prevent the rapid evaporation of moisture in the concrete.

By using such a material, it is possible to prevent the flow of electric current by the cracked part by preventing the crack caused by the rapid evaporation of moisture present in the concrete, and to maintain the constant moisture for a long time to achieve a constant flow of current. Can be.

These reinforcing materials may be used alone or in combination of two or more thereof.

Clay reinforcement is to increase the water-containing function by absorbing and swelling water in the concrete, and swelling by containing a large amount of water between cement hydrates to prevent the rapid evaporation of moisture.

The content of such clay reinforcement is preferably 5 to 20% by weight of the total composition, when the content is less than 5% by weight, the damping effect as a reinforcing material is weak, and when it is more than 20% by weight, the compressive strength of the concrete is lowered due to excessive moisture Let's go.

Preferably it is used in the range of 8 to 16% by weight.

In the present invention, the hydroxide is used as an additive for improving the water retention performance.

These hydroxides are additives that do not affect cement hydration, and are combined with the vesicles to produce hydrates, and the hydrates exhibit the ability to maintain the ability to maintain water for a long time.

Hydroxide for this use includes magnesium hydroxide, calcium hydroxide, aluminum hydroxide, and the like, which may be used alone or in combination of two or more thereof.

In addition, the average particle diameter of the hydroxide is important, in order to see the effect in a small amount.

Preferably, the average particle diameter of the hydroxide is 0.5 to 10㎛, the amount of use is 0.5 to 5% by weight of the total composition.

If the amount is less than 0.5% by weight, the effect is insignificant to achieve the purpose of use, and when it is used in excess of 5% by weight, the dispersion efficiency may deteriorate when the composition is manufactured and the strength of the concrete may be drastically weakened by containing moisture for a long time. .

Preferably it is 2-4 weight%.

The composition of the present invention configured as described above is excellent in current inducing properties of the concrete, and excellent in preventing the evaporation of moisture in the concrete, the current density flowing through the electrical connection between the magnetic material of the lid and the body of the trough concrete, respectively Can be made the same and is suitable for reducing the electromagnetic induction phenomenon of the inner cable.

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Claims (4)

25-50% by weight of an inorganic fibrous material (calcinite stone);
25-50% by weight of the fiber alone or in a composite of steel fibers or carbon fibers;
5-20% by weight clay reinforcement;
0.5-5% by weight of hydroxide additives; Cable trough concrete additive composition having a current inducing property comprising a. The method of claim 1,
The clay reinforcing material is a cable trough concrete additive composition having a current inducing characteristic, characterized in that the sole or two or more selected from sodium bentonite, calcium bentonite, montmorillonite. The method of claim 1,
The hydroxide additive is a cable trough concrete additive composition having a current inducing characteristic, characterized in that one or more selected from magnesium hydroxide, calcium hydroxide and aluminum hydroxide having an average particle diameter of 0.5 ~ 10㎛. delete