KR100632788B1 - Composite of remicon using waste sand, pebbles - Google Patents

Abstract

The present invention relates to a ready-mixed concrete composition using waste aggregate for road paving, floor paving of factories and underground parking lots, or for building structures.

The present invention disclosed is a cement of 11-17% by weight relative to the total weight; Waste aggregate having a particle size distribution of 36 to 45% by weight obtained by crushing to a size of 27 mm or less; 35-43% by weight of mixed stone powder obtained by mixing a yarn having a particle size distribution of 7 mm or less and a waste stone powder having a particle size distribution of 7 mm or less in a ratio of 1: 0.3 to 0.5 by weight; Admixtures with a percentage by weight of 0.08-0.1; And 5-7% by weight of water based on the total weight.

As a result, waste aggregates generated during the dismantling of concrete structures are not reclaimed, but recycled into building structural ready-mixed concrete or road paving or floor paving ready concrete for factories and underground parking lots. This has the advantage of eliminating difficulties.

Description

Composition of ready-mixed concrete using waste aggregates {COMPOSITE OF REMICON USING WASTE SAND, PEBBLES}

1 is a schematic configuration diagram showing an embodiment of a ready-mixed concrete manufacturing apparatus using waste aggregate according to the present invention,

Figure 2 is a process chart showing a ready-mixed concrete manufacturing method using waste aggregate according to the present invention.

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

100 to 102: first to third hopper 103: water tank

108: main conveyor belt 109: mixer

110: storage tank

The present invention relates to ready mixed concrete (REMICON: Ready Mixed Concrete) for general road pavement or underground parking lot and factory floor or building structure using waste aggregates generated when dismantling concrete structures. Waste aggregates containing harmful substances are sorted and separated by size, and safely recycled into flooring or building structural ready-mixed concrete for road pavement or factory and underground parking lot without environmental pollution, thereby maximizing the utilization of waste resources and It relates to a composition of ready-mixed concrete using waste aggregates to achieve minimization.

In general, the decommissioning of aging concrete structures produces a large amount of concrete waste, ie waste concrete. Considering the trend of dismantling old buildings due to recent redevelopment or reconstruction, it is estimated that the amount of waste concrete will reach millions of tons per year, of which over 60% of the total can be collected and recycled.

Such waste concrete is crushed to a certain size and used as a backfill of retaining walls, but its amount is insignificant, and most of it is used for landfills such as reclaimed land or discarded in landfills. There was also a negative aspect of disposal.

As such, the waste aggregate generated during the dismantling of the concrete structure is not recycled and landfilled in a certain place, which causes problems of environmental pollution as well as an increase in landfill costs due to an increase in landfill processing costs and an increase in waste aggregate. .

Particularly, natural resources are being depleted by using natural sand and gravel instead of recycling recycled aggregates in the manufacture of floor ready concrete for road pavement, factory and underground parking lot, and construction of concrete structures. It is pointed out by a problem that occurs.

Therefore, while recovering from the above problems, in terms of economics, it provides a low-cost road paving or concrete for building floors or building structural concrete, and in terms of reliability, it provides a ready-mixed concrete using waste aggregate to maximize the utilization of waste resources and prevent environmental pollution. It is desirable to.

Accordingly, an object of the present invention is to sort and separate various waste aggregates by size instead of the appropriate amount of raw aggregates (natural sand and gravel) used in the production of ready-mixed concrete, and to increase the strength of floors such as factory floors and underground parking lots or if necessary. The reinforcement is to provide a road paving ready-mixed concrete.

Another object of the present invention is to provide a ready-mixed concrete using the selected waste aggregate as aggregate for building structures (retaining walls and slabs, columns) as needed.

Still other objects of the present invention will become more apparent from the following detailed description.

According to the ready-mixed concrete composition using the waste aggregate according to the present invention for achieving the above objects, a percentage of 11-17% by weight relative to the total weight of cement; Waste aggregate having a particle size distribution of 36 to 45% by weight obtained by crushing to a size of 27 mm or less; 35-43% by weight of mixed stone powder obtained by mixing a yarn having a particle size distribution of 7 mm or less and a waste stone powder having a particle size distribution of 7 mm or less in a ratio of 1: 0.3 to 0.5 by weight; Admixtures with a percentage of 0.08-0.1 by weight of the total weight; And 5-7% by weight of water based on the total weight.

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In this way, the waste aggregate generated when dismantling the concrete structure is collected and pulverized to a certain size through a sorting, separating process and a crushing operation to remove foreign substances, and also to separate the coal and yarn into the waste aggregate from which the foreign matter is removed. By mixing the ratio and then mixing the cement, admixture and water, it can be seen that it is recycled into the floor paving of the factory and underground parking lot, and the road paving or building structural ready-mixed concrete.

As a result, it is possible to maximize the utilization of waste resources by minimizing the waste aggregate generated when dismantling the concrete structure to the floor paving or building structural ready-mixed concrete, and also to minimize environmental pollution and eliminate landfill difficulties.

And, there may be a plurality of embodiments of the present invention, hereinafter will be described in detail with respect to the most preferred embodiments below.

Through this preferred embodiment, it is possible to better understand the objects, features and advantages of the present invention.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the ready-mixed concrete composition using the waste aggregate according to the present invention.

1 is a schematic configuration diagram showing an embodiment of a ready-mixed concrete manufacturing apparatus using waste aggregate according to the present invention.

The ready-mixed concrete manufacturing apparatus using waste aggregate according to the present embodiment is selected by the specific size and type of the collected waste concrete, the particle size distribution is crushed to the size of 20-27mm or less, and the particle size distribution to the waste aggregate obtained by removing the foreign matter Is the first hopper (100) to receive the mixed aggregate made by mixing a predetermined amount of atomized coal with a predetermined ratio of 20-27mm or less and discharged by a predetermined mixing ratio, and the particle size distribution is selected by a predetermined size and type for the waste concrete 4-7mm Second and third hoppers (101), which are supplied with a prescribed mixing ratio, are respectively administered mixed stone powder and cement, each of which has a particle size distribution of 4-7 mm or less, in a predetermined proportion to waste stone powder obtained by pulverizing and removing foreign matters. 102, the water tank 103 for storing water and supplying it through the supply pipe 107, and a predetermined ratio discharged from the first to third hoppers (100 to 102) First and third conveyor belts 104 to 106 for conveying the mixed aggregate, mixed stone powder, and cement of the aggregate, and the mixed aggregate, mixed stone powder, and cement conveyed from the first to third conveyor belts 104 to 106, respectively. The main conveyor belt 108 for mixing and conveying, and the water supplied from the supply pipe 107 and a predetermined amount of mixed aggregate, mixed stone powder and cement conveyed through the main conveyor belt 108 are stirred and mixed with the admixture. The mixer 109 and the storage tank 110 for storing and distributing the confined concrete, weighed to a predetermined weight as needed, and discharged and discharged through the discharge port 111.

The ready-mixed concrete manufacturing method using the waste aggregate according to the present invention through such a ready-mixed concrete manufacturing apparatus will be described in more detail with reference to FIG. 2.

Before collecting the waste aggregate generated during the dismantling of the concrete structure, that is, the waste concrete and putting it into the first to third hoppers 100 to 102, first, the collected waste concrete is sorted and separated by size and type (step; S100). Then, the separated and separated waste concrete is crushed to a certain size (step ST110), and the crushed waste concrete is waste aggregate having a particle size distribution of 20-27 mm or less through a screen having a mesh of a predetermined size and 4-7 mm. The following waste stone powders are selected.

Then, the selected waste aggregate and waste stone powder is passed through a regeneration process, that is, a water tank to remove foreign substances.

As such, in the waste concrete where the screening and regeneration process are removed, the waste aggregate having the size of 20-27mm or less and the raw coal (natural gravel) having a particle size distribution of 20-27mm or less are mixed at a constant ratio. Also, the waste stone powder having a size of 4-7 mm or less and the yarn (natural sand) having a particle size distribution of 4-7 mm or less are respectively mixed at a predetermined ratio (step S120). Here, the mixing ratio of the atomized coal and the waste aggregate is 1: 0.3 to 0.5 weight ratio, and the mixing ratio of the waste stone powder and yarn is 1: 1 weight ratio is most suitable.

As such, the mixed aggregates in which the coal and the waste aggregate are mixed in a weight ratio of 0.3 to 0.5 and the mixed stone powder in which the waste stone powder and the yarn are mixed in a weight ratio of 1: 1 are respectively added to the first and second hoppers 100 and 101. The fractionation is added and fine cement is injected into the third hopper 102 (step S130).

The mixed aggregates stored in the first hopper 100 and the waste stone powder and cement stored in the second and third hoppers 101 and 102 have a predetermined ratio, for example, a strength of 210-220 kg / cm 2, for building structures, In other words, 36-45% by weight of the mixed aggregate, 35-43% by weight of the mixed stone powder, and 11-17% by weight of the cement to remove the foreign matter in order to manufacture the structural concrete of the slab, column or retaining wall of the building Each of them is transferred through the first to third conveyor belts 104 to 106 (step S140). The conveyed mixed aggregate, mixed stone powder and cement are combined in the main conveyor belt 107 and then administered to the mixer 109.

On the other hand, after diluting the water 5% to 7% by weight of the total weight and the admixture material of 0.08-0.1% by weight of the total weight from the water tank 103 and supplied to the mixer 109 through the supply pipe 107 do.

In the mixer 109, 36-45% by weight of the mixed aggregate, 35-43% by weight of mixed stone powder and 11-17% by weight of cement are sufficiently stirred and mixed with the admixture and water diluted in the water tank 103 (step; S150) is then administered to the storage tank 110 (step S160).

In this way, the mixed aggregate, mixed stone powder, cement, water, admixtures, 36-45% by weight of the mixed aggregate, in which the atomized coal and the waste aggregate having a particle size distribution of 20-27 mm or less are mixed at a weight ratio of 1:03 to 0.5 35-43% by weight of mixed stone powder having a distribution of 4-7 mm or less and waste stone powder in a 1: 1 weight ratio, 11-17% by weight cement, 5-7% by weight water and 0.08-0.1% by weight admixture ( 109) is mixed with sufficient stirring and discharged to the storage tank 110 to produce concrete for building structures having a strength of 210-220 kg / cm 2.

Here, in order to manufacture a concrete for building structures having a strength of 210-220 kg / cm 2, 40% by weight of the mixed aggregate, 39% by weight of the mixed stone powder, 14% by weight of cement, 6% by weight of water and 0.09% by weight of mixed material Mixing is most appropriate.

In addition, the particle size distribution of the mixed aggregate and the mixed stone may be used in accordance with the purpose of use as the base aggregate for building structures or road pavement, or as the floor pavement aggregate for factories or underground parking lots, as well as its strength. Can change.

In order to manufacture concrete for floors such as roads, factories, and underground parking lots, 100% waste aggregate is used instead of atomized coal mixed in the mixed aggregate, and the ratio of yarn and waste stone powder of mixed stone powder is different. By doing so, floor concrete is produced.

For example, in order to manufacture the concrete for floors such as roads, factories and underground parking lots, as described above, the particle size distribution is 36-45% by weight of waste aggregates crushed to a size of 20-27mm or less, and the particle size distribution is 4- 35-43% by weight of mixed stone powder, 11-17% by weight of cement, 5-7% by weight of water, and 0.08-0.1% by weight of admixture, were fed to the mixer 109 by mixing the waste stone powder with a fixed weight ratio of 7 mm or less. In the mixer 109, these are mixed with sufficient agitation and discharged to the storage tank 110, thereby producing floor concrete having a strength of 210-220 kg / cm 2. At this time, the mixing ratio of the waste stone powder and yarn at the time of manufacturing the concrete for floor is 1: 0.3 ~ 0.5 is appropriate.

Subsequently, the flooring or building structural ready-mixed concrete stored in the storage tank 110 is weighed at a predetermined weight and loaded into the ready-mixed concrete vehicle through the outlet 111, and then shipped to the road repair or concrete facility site (step S170). Used as pavement aggregates for pavements (walkways, bicycle paths, plazas, parking lots, alley pavements), as pavement aggregates for building floors (especially parking garage buildings), or as aggregates for building structures such as walls and columns and slabs.

On the other hand, as a comparative example, unlike the prior art, that is, to manufacture the concrete for road paving, floor pavement or building structure using natural sand and gravel and cement, the present invention is a waste aggregate generated when dismantling the concrete structure It can be seen that by mixing the appropriate amount of coal, yarn and cement in the reclaimed road concrete, building floor or building structural ready-mixed concrete.

In this result, according to the present invention, by maximizing the utilization of waste resources by minimizing the waste aggregate generated when dismantling the concrete structure to the road or building floor pavement or concrete for building structure, and thereby minimize the environmental pollution Of course, by using the waste aggregate as a material for manufacturing ready-mixed concrete, it can be seen that the difficulty of landfills can be solved without causing damage to roads or building floors and building structures due to improved durability.

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the present invention may be variously modified and implemented by those skilled in the art.

Such modified embodiments should not be individually understood from the technical spirit or the prospect of the present invention, and such modified embodiments should fall within the appended claims of the present invention.

According to the ready-mixed concrete composition using the waste aggregate of the present invention, which is apparent from the above description, the utilization of waste resources is maximized by recycling the waste aggregate, which is a construction waste, into concrete for road paving, building floor, or building structure without being landfilled. Minimizing pollution, eliminating landfill difficulties and contributing to the reduction of production costs for manufacturers.

Claims (11)

delete delete delete delete delete delete delete delete delete (1) a cement which is 11-17% by weight relative to the total weight; (2) 36-45% by weight of waste aggregate obtained by crushing to a size of 27 mm or less; (3) 35-43% by weight of mixed stone powder obtained by mixing a yarn having a particle size distribution of 7 mm or less and a waste stone powder having a particle size distribution of 7 mm or less in a ratio of 1: 0.3 to 0.5 by weight; (4) admixtures with a percentage of 0.08-0.1 by weight of the total weight; And (5) The composition of ready-mixed concrete using waste aggregate, characterized in that the mixture is made of water 5-7% by weight based on the total weight. delete

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