KR200197968Y1 - The contrete block using trash-burnt line - Google Patents

Abstract

The present invention relates to a concrete block that can be utilized as civil engineering and building materials using incineration ash generated after industrial waste incineration.

In order to contribute to the protection of natural resources due to the recycling of resources by incineration ashes containing non-combustible inorganic wastes not reclaimed on the ground, they are reused as civil engineering and building materials. Finely crushed and uniformly refined to have a mixture of additives such as cement binder, and the mixture is molded and cured to form a shape and shape by a mold to produce a finished product on one concrete block (brick, sidewalk block) By supplying, it is possible to greatly contribute to saving natural resources by using incineration ash, which is difficult to dispose after incineration, as part of civil engineering and building materials.

Description

Concrete block using trash-burning ash {The Contrete block using trash-burnt line}

The present invention relates to a concrete block, and more particularly to a concrete block using waste incineration ash that can be utilized as civil engineering, building materials incineration ash difficult to dispose after industrial waste incineration.

In general, most of the waste generated from homes and factories is landfilled.

As such, when landfills are disposed of on land, it is difficult to form landfills for landfilling these wastes.

In addition, the odor, dust, and leachate generated from landfill after landfilling these wastes have groundwater, river pollution, and methane gas (CH4) generated from landfills, along with carbon dioxide (CO2), causing global warming. have.

Thus, in recent years, incineration of burning wastes has been proposed, but incineration ash (ash) generated after incineration has become another environmental pollutant in the case of wastes mainly composed of combustibles among industrial wastes and municipal wastes.

The incineration ash contains various materials such as iron, non-ferrous metals, glass, ceramics, etc., which are incombustible materials, in various shapes and forms, and thus are difficult to process, and include Cd, Hg, Zn, Mn, Cr, etc. Hazardous heavy metals are contained, and their final disposal may require rigorous management for environmental hygiene.

Therefore, households and factories should try to conserve resources and preserve the environment by using them as energy resources through the generation of waste (reduction), reuse of used products, and recycling of recovered materials as raw materials.

However, if these methods are not appropriate in terms of technology or environment, using waste energy (incineration, solid fuel, recycled fuel oil, BIO fuel, etc.) as alternative energy can bring many benefits in terms of resource recycling and energy saving. Can be obtained.

Energy can be used for housing, industrial, commercial and power generation in the form of heat (hot water, steam), gaseous fuel (methane, etc.) and solids (RDF), and can solve serious waste and energy shortages. .

On the other hand, one of the building materials, such as gravel, sand, soil, etc. are almost exhausted due to indiscreet sampling, and the supplements and substitutes to replace them were required.

Therefore, the present invention was devised to solve the conventional problems as described above, and since incineration ash of waste contains incombustible inorganic substances such as ceramics and glass, unlike ash, and its shape also has a wide particle size distribution, It is intended to use incineration ash as a concrete material by mixing and cementing it with cement binder like natural gravel or sand aggregate.

Another object of the present invention is to contribute to the protection of natural resources by recycling resources by reusing wastes containing such incombustible inorganic wastes as lands for civil engineering and construction as part of incineration, without reclaiming them on land.

To this end, the present invention collects waste incineration ash, which is a by-product generated from the waste incineration apparatus, finely shreds it, shreds it to have a predetermined particle size distribution, refines it uniformly, and then mixes additives such as cement binders by means of a mold. It is characterized by supplying and manufacturing finished products on a concrete block (brick, sidewalk block) through a process of curing after pressure molding to achieve a constant shape and shape.

In this design, by using incineration ash that is difficult to dispose after incineration as part of civil engineering and building materials, the amount of landfill due to landfill can be reduced as before, and it is used as a substitute for gravel, sand, and aggregates. There is an advantage that can greatly contribute to savings.

In the present invention, the cement binder mixed with the incineration ash has an advantage that some heavy metals, which may be included in the incineration ash, are wrapped so as not to be eluted to the outside, so that there is no risk of contamination of the natural environment.

Hereinafter, with reference to the accompanying drawings, the configuration and effect and the like of the present invention in more detail as follows.

1 (a) (b) is an exemplary view of a concrete block using waste incineration ash according to the present invention,

2 is a manufacturing process of the concrete block according to the present invention,

<Explanation of symbols for the main parts of the drawings>

10; Concrete block

The present invention uniformly mixed with other additives 10% to 90% incineration ash generated after waste incineration, as shown in Figure 1 by forming a shape to form a concrete block 10 or sidewalk block by a constant mold It is characterized by its use as a subsidiary material for civil engineering and construction.

The present invention is to use incineration ash, one of the wastes, as a substitute for natural gravel or sand.

As shown in Fig. 2, in manufacturing a concrete block used for civil engineering and building materials,

Collecting industrial waste and incineration in incinerators,

A process of collecting incineration ash containing incombustible inorganic waste discharged after incineration from the incinerator with a conveyor and grinding it finely to form a pulverized product;

A process of making the pulverized product into a grain having a constant particle size distribution by using a net-shaped refiner (chae);

Uniformly mixing an additive such as a cement binder with the sieving material,

Filling the mixture into a mold;

Pressing and molding while applying a constant vibration and pressure to the mixture filled in the mold,

After the molding is separated from the mold, it is characterized in that it is manufactured through a process of solidifying by curing for a predetermined time.

Referring to the effects of the present invention configured as described above are as follows.

The incineration ash used in the present invention has a variety of shapes and materials, so when used as aggregate, the strength of the product is insufficient, and the incineration ash of waste forms a ash residue mainly caused by incineration of combustible materials. It contains non-combustible inorganic materials such as metal, pottery, and glass, and its shape also has a wide particle size distribution, so it is crushed finely using a crusher.

Thus, granules with a large particle size, such as ceramics or glass, are coarse aggregates. Fine granules having a smaller particle size are formed with fine aggregates, and thus, coarse aggregates are similar to natural concrete aggregates. It contributes to the compressive strength of concrete and fine aggregates can be combined with the cement aggregate coarse aggregate to have waterproof and permeability resistance to concrete.

In particular, the strong alkalinity of the cement prevents metal ions from dissolving, the adsorption of metal ions on the surface of cement hydrates, the substitution of atoms or metal ions in the hydrates, and the physical encapsulation of cement gels. The water permeability is effective to stabilize the heavy metals and prevent the elution almost completely even if the incineration ash particles contain harmful heavy metals.

The additive used as the cement binder mixed in the incineration ash is mixed with the incineration ash in a 10: 1 ratio, and the additive is CMC, margarite green, an active agent, a waterproofing agent, a waterproofing material, a pigment and blast furnace cement, a portland cement or an alumina cement. One having a composition of

Particularly, since the grains acting as aggregates are formed from incineration ash, it is preferable that the cement binders are strongly bound to each other, so that water resistance is excellent, water permeability is lowered, and heavy metals are prevented from being eluted.

Therefore, the incineration ash of the waste of the present invention is mixed to form a certain shape to form a concrete block (foot block or brick) to form a desired shape, and even if it is left in the open, additives, such as cement binders all over the outer peripheral surface It has a structure to wrap.

That is, when injecting the additive mixed with incineration ash into the mold, if the mold is subjected to a constant vibration, most of the additives composed of fines are located outside and all coarse aggregates composed of the incineration circuit are gathered at the inner center to prevent the harmful heavy metals from eluting. A complete compressed molded block can be obtained without the risk of environmental pollution.

As described above, according to the present invention, by finely crushing the incineration ash generated after incineration of garbage, it can be used as the core part of the concrete block and can be used as aggregate of concrete secondary products.

Therefore, most of the large amount of incineration ash discharged can be completely treated in a specific form and can be utilized as aggregate of concrete blocks, which is a great effect for saving resources such as natural sand and gravel.

In the present invention, the cement binder mixed with the incineration ash has an advantage such that some heavy metals which may be included in the incineration ash are prevented from being eluted to the outside, thereby preventing the environment from being contaminated.

In addition, in the present invention, the incineration ash generated after incineration of industrial waste is replaced with aggregates such as sand and gravel, and the strength of the general concrete block is about 20 PSI, whereas the concrete block of the present invention has a strength of about 40 PSI. Not only is it harder than the block, but it is also lighter and cheaper.

Claims (1)

In civil engineering, building concrete blocks, The incineration ash generated from industrial waste incinerator is pulverized and then mixed with additives at a certain ratio to form a concrete block having a shape and a shape by a mold into which the mixture is injected, but characterized in that it is manufactured by the process described below. Concrete block using garbage incineration. Process of incineration of industrial waste in incinerator, Finely grinding the incineration ash containing the non-combustible inorganic waste discharged from the incinerator, thereby forming a pulverized product; A process of making the pulverized product into a sizing material having a constant particle size distribution by using a net-shaped refiner (chae); Mixing an additive with the sieving material, Filling the mixture into a mold; Pressing and molding while applying a constant vibration and pressure to the mixture filled in the mold, After curing the molding in the mold for curing for a certain time to solidify.