KR20040041234A - Porous echo concrete using waste lime stone, and porous echo concrete block unit and connecting pin using the concrete, and method for constructing structure on incline plane using the block unit and the connecting pin - Google Patents

Abstract

PURPOSE: An ecofriendly porous concrete is provided to improve water permeability of concrete products while maintaining the general strength, by using recycled limestone but no sand. A unit block and connecting member made of the ecofriendly porous concrete having an advantageous structure is provided to give excellent transportation and construction property. Provided is an assembly construction method for fill slope, cut slope and revetment of the river by using the unit block and the connecting member, which can reduce the construction cost in an environmentally friendly way. CONSTITUTION: The ecofriendly porous concrete is produced by blending, per cubic meter, 1438-1628 kg of aggregate which is grounded waste limestone having a size of 10-13mm, 900-1000 g of glass fiber having a uniform length of 3-6mm, 0.3-0.5% of slag based on the amount of cement, 290-330 kg of Portland cement, and 70-110 kg of water. The ecofriendly concrete unit block(10) made of the ecofriendly porous concrete is a rectangular parallelepiped in which a square 'C'-shaped groove is formed in each corner, and an octagonal hole(15) is formed in the center. The connecting member(30) made of the ecofriendly porous concrete is a shape of octagon of which the upper horizontal sides are relatively narrower than the vertical sides.

Description

Porous echo concrete using recycled limestone, porous eco concrete unit blocks and porous eco concrete connecting pins manufactured using the same, and sloped assembly method using the same using the concrete, and method for constructing structure on incline plane using the block unit and the connecting pin}

The present invention is a porous eco-concrete manufactured by recycling waste limestone that can be assembled and installed on the slopes and cuts of embankments and rivers, porous eco-concrete unit blocks and porous eco-concrete connecting pins manufactured using the same, and a slope-assembling construction using the same The method relates to the use of 1438-1628 kg / m3 of crushed limestone aggregates and 900-1000 g / m3 of composite new material fiberglass with a length of 3 to 6 mm and slag crushed to a size of 10 to 13 mm, within 0.3 to 0.5% of the amount of cement. It is a rectangular parallelepiped made of porous eco concrete manufactured by mixing general portant cement 290 ~ 330㎏ / ㎥ and water 70 ~ 110㎏ / ㎥, and it has a square groove at the center of the corner. It is composed of porous eco-concrete unit block and octagonal pillars that form an octagonal central through-hole, and the upper plane is narrow and the side plane is relatively wide. In case of installation on the slope of fill and cut using symmetric porous eco-concrete connecting pins, the flat part of the long side of the porous eco concrete unit block is in contact with the flat part of the long side, and the flat part of the short side is in contact with the flat part of the short side. It is installed on the inclined surface and is firmly installed on the ground by inserting the porous eco concrete connecting pin into the octagonal through hole formed by the side groove part. After installation in a row and inserting the porous eco-concrete connecting pins in the central through hole, the next step is to stack and install the porous eco-concrete unit blocks in a zigzag manner so that the side grooves of the porous eco-concrete unit blocks and the porous eco-concrete connecting pins contact each other It is a construction method.

The purpose of the present invention is to recycle the waste limestone discharged from the limestone mine, the vegetable porous eco-concrete unit block and the connecting pin, which is a product produced by using the porous eco-concrete which does not use the fine aggregate sand at all, maintain the strength of the general concrete product. It has good water permeability and is structurally excellent, so it can be constructed on slopes of rivers and cuts or on lakes of rivers, thereby preventing ecological destruction of rivers by recycling waste and collecting natural aggregates. An object of the present invention is to provide a method of assembly of blocks and porous eco-concrete connecting pins.

Limestone is typically used in the manufacture of cement is used in the cement manufacturing process, but only if in the mining process, the purity of the calcium carbonate (CaCO ₃₎ at least 75-85% mixture of minerals such as slate or dolomite, calcium carbonate (CaCO ₃₎ When the purity falls, most of the waste is classified as waste limestone in the mining process, and the amount is estimated to range from 2 million to 3 million tons per year. This causes serious environmental pollution problems such as soil pollution.

In addition, as a large amount of concrete is used in large-scale construction work, good natural aggregate resources are gradually depleted, and the recycling of waste resources is urgently required according to the need for alternative aggregate resources for concrete.

Construction methods using non-environmental blocks that cannot be planted, such as gabion construction, revetment protection method using cement revetment block, and revetment protection method using concrete mat, were performed in Korea. As described above, the blocks used for the conventional riverbanks are non-permeable, and are non-environmental blocks in which the grass cannot grow. In addition, when there is a large amount of precipitation, the block is lost due to structural incompleteness, resulting in a change in the flow rate of the river river, thereby raising the problem of the loss of the river bank.

In view of the above, the present invention can recycle waste limestone to maintain suitable strength without using sand, which is fine aggregate, and to secure permeability while being very structurally advantageous, easy to transport, and excellent in construction work. And to provide an environmentally friendly porous eco-concrete unit block and porous eco-concrete connecting pin that can be installed on the cut slope.

1 is a perspective view showing a porous eco-concrete unit block of the present invention.

2 is a plan view of the porous eco-concrete unit block of FIG.

3 is a side view of the porous eco-concrete unit block of FIG.

Figure 4 is a perspective view showing a porous eco-concrete connecting pin of the present invention.

5 is a plan view of the porous eco-concrete connecting pin of FIG.

6 is a side view of the porous eco-concrete connecting pin of FIG.

Figure 7 is a view showing a state assembled on the fill and cut slope using the porous eco-concrete unit block and the connecting pin of the present invention.

8 is a view showing a state assembled and installed in the lake's arc using the porous eco-concrete unit block and the connecting pin of the present invention.

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

10 ... porous eco concrete unit block

11 ... center through hole 12 ... flat on short side

13 ... side groove 14 ... long side

15 ... Octagonal through hole

30 ... Porous Eco Concrete Connecting Pins

31 ... side flat part 32 ... top flat part

33. Bottom flat part

The present invention is a porous eco-concrete manufactured by recycling waste limestone that can be assembled and installed on the slopes and cuts of embankments and rivers, porous eco-concrete unit blocks and porous eco-concrete connecting pins manufactured using the same, and a slope-assembling construction using the same The method relates to the use of 1438-1628 kg / m3 of crushed limestone aggregates and 900-1000 g / m3 of composite new material fiberglass with a length of 3 to 6 mm and slag crushed to a size of 10 to 13 mm, within 0.3 to 0.5% of the amount of cement. A rectangular parallelepiped made of porous eco-concrete prepared by mixing general portland cement 290 ~ 330㎏ / ㎥ and water 70 ~ 110㎏ / ㎥ The grooves 13 are formed in the center and the porous eco-concrete unit block 10 having the octagonal central through-holes 11 formed therein is formed of an symmetrical column of octagonal shapes. Filling using porous eco-concrete connecting pins 30 with narrow sub-planar parts 32 and 33, relatively wide lateral plane parts 31 on both sides, and symmetrical left and right around upper and lower planar parts 32 and 33 And the flat portion 14 of the long side of the porous eco-concrete unit block 10 is in contact with the flat portion 14 of the neighboring long side when installed on the inclined surface of the cut, and the flat portion 12 of the short side is of the neighboring short side. The porous eco-concrete connecting pin 30 is inserted into the ground while inserting the porous eco-concrete connecting pin 30 into the octagonal through-hole 15 formed by the side groove 13 by assembling and installing it on the inclined surface in contact with the flat part 12. When a part of the is inserted and installed firmly, when installing in a river lake, porous eco-concrete unit blocks 10 are arranged in a line adjacent to each other at the bottom of the slope of the lake and porous eco-concrete connecting pins in the central through-hole 11 After inserting 30 From the next row, the half surface of the porous eco-concrete unit block 10 of the lower row is the porous echo of the upper row so that the porous eco-concrete connecting pin 30 is inserted into the side groove 13 of the porous eco-concrete unit block 10. Characterized by a construction method of the laminated assembly installation in a zigzag so that the front half of the concrete unit block 10 can overlap.

Here, the glass fiber is used because it is a long fiber, a composite new material which is excellent in tensile strength and harmless to human body, instead of using sand, which is fine aggregate, and the limit of the length of glass fiber to 3 ~ 6mm is to control the consistency of concrete. to be. In addition, the porous eco-concrete has a permeability coefficient of 30 × 10 ⁻² cm / sec or more and a design reference strength of 100 to 250 kg / cm 2.

Hereinafter, the configuration and operation of the present invention will be described in detail with reference to the accompanying drawings.

1 is a perspective view showing a porous eco concrete unit block of the present invention, Figure 2 is a plan view of the porous eco concrete unit block of Figure 1, Figure 3 is a side view of the porous eco concrete unit block of Figure 1 size of 10 ~ 13mm Waste limestone aggregate crushed with 1438 ~ 1628㎏ / ㎥ and composite new material fiberglass 900 ~ 1000g / ㎥ of 3 ~ 6mm length and slag are added within 0.3 ~ 0.5% of cement content and general portant cement 290 ~ 330㎏ / ㎥ And a rectangular parallelepiped manufactured by using porous eco-concrete prepared at a mixing ratio of 70 to 110 kg / m3 of water, and forming side grooves 13 having three sides formed in the shape of "c" on the corners. It is a porous eco-concrete unit block 10 having a central through hole 11 of an octagon shape. The porous eco-concrete unit block 10 is a rectangular parallelepiped having a width of 45 cm, a height of 34 cm, and a height of 20 cm. The central through-hole 11 is octagonal, and the size inside the central through-hole 11 is the porous echo. Where the concrete connecting pin 30 is inserted, the length of the portion contacting the upper and lower planar portions 32 and 33 of the porous eco-concrete connecting pin 30 is 20 cm, and the width of the portion contacting the side planar portion 31 is 13 cm. Here, the glass fiber is used because it is a long fiber, a composite new material which is excellent in tensile strength and harmless to human body, instead of using sand, which is fine aggregate, and the limit of the length of glass fiber to 3 ~ 6mm is to control the consistency of concrete. to be. In addition, the porous eco-concrete has a permeability coefficient of 30 × 10 ⁻² cm / sec or more, and the design reference strength is 100 to 250㎏ / ㎠.

Figure 4 is a perspective view showing a porous eco-concrete connecting pin of the present invention, Figure 5 is a plan view of the porous eco-concrete connecting pin of Figure 4, Figure 6 is a side view of the porous eco-concrete connecting pin of Figure 4 as 10 ~ 13mm Waste limestone aggregate crushed to the size of 1438 ~ 1628㎏ / ㎥ and composite new material fiberglass 900 ~ 1000g / ㎥ of 3 ~ 6mm length and slag to within 0.3 ~ 0.5% of the amount of cement and general portland cement 290 ~ 330㎏ / M3 and octagonal bilaterally symmetrical pillars made of porous eco-concrete prepared at the mixing ratio of 70 ~ 110㎏ / ㎥, with the upper and lower flat parts 32 and 33 narrow and the side flat parts on both sides Reference numeral 31 is a relatively wide porous eco-concrete connecting pin 30 which is symmetrical with respect to the upper and lower planar portions 32 and 33.

The porous eco-concrete connecting pin 30 is to be inserted into the central through-hole 11 and the side groove 13 formed in the center of the porous eco-concrete unit block 10, the length of the upper and lower flat portions (32, 33) Is 19 cm, the width of each of the side plane portions 31 is 12 cm, and the length is 30 cm.

Here, the glass fiber is used because it is a long fiber, a composite new material which is excellent in tensile strength and harmless to human body, instead of using sand, which is fine aggregate, and the limit of the length of glass fiber to 3 ~ 6mm is to control the consistency of concrete. to be. In addition, the porous eco-concrete has a permeability coefficient of 30 × 10 ⁻² cm / sec or more and a design reference strength of 100 to 250 kg / cm 2.

7 is a view showing a state of assembly on the fill and cut slope using the porous eco-concrete unit block and the connecting pin of the present invention is installed adjacent to the porous eco-concrete unit block 10 of Figs. The long side flat portion 14 is in contact with the neighboring long side flat portion 14, and the short side flat portion 12 is assembled to the inclined surface in contact with the adjacent short side flat portion 12 to the side groove portion 13. The lower portion of the connecting pin 30 is inserted into the ground while inserting the porous eco-concrete connecting pin 30 of FIGS. The porous eco-concrete assembly block 10 and the connection pins 30 are highly permeable, so that the plants are provided with conditions for vegetation even when installed on the slopes of embankments and cuts, thereby becoming an environmentally friendly slope protection method.

8 is a view showing a state assembled and installed in the lake arc using the porous eco-concrete unit block and connecting pin of the present invention, the porous eco-concrete unit block 10 of Figs. After installation in a line adjacent to each other and the porous eco-concrete connecting pin 30 of Figs. 4 to 6 in the central through-hole (11) from the next row from the side groove 13 of the porous eco-concrete unit block (10) Insert the porous eco-concrete connecting pin 30 in the bottom, half of the porous eco-concrete unit block 10 of the lower row is installed on the front half of the porous eco-concrete unit block 10 is installed in the upper row. It is a construction method to install and assemble in zigzag laminate The porous eco-concrete assembly block 10 and the connection pins 30 are highly permeable, so that the plants are provided with conditions for vegetation even when installed in the lake's lake, which is an environmentally friendly slope protection method.

As described above, the present invention is to recycle the waste limestone discarded so far to produce porous eco-concrete which does not use sand as fine aggregate at all to maintain the same strength as that of general concrete products, and improves permeability and is very glass structurally. By constructing porous eco-concrete unit blocks and connecting pins with excellent transport and construction properties, they can be installed on slopes of rivers and cuts and on lakes, which can reduce production costs and construction costs by recycling wastes. It is a very useful invention that prevents the destruction of ecosystems due to rivers.

Claims (9)

Aggregate and composite new material crushed waste limestone to a certain standard, recycled waste limestone, characterized in that a mixture of glass fiber with a certain length of long fiber, a certain amount of slag, and a certain amount of general portant cement and water in a certain mixing ratio Manufactured porous eco concrete. The method of claim 1, The compounding ratio is 1438 ~ 1628kg / crushed waste lime aggregate aggregated in the size of 10 ~ 13mm and 900 ~ 1000g / ㎥ of slag composite fiber composite material of 3 ~ 6mm length and slag within 0.3 ~ 0.5% of the amount of cement A porous eco-concrete manufactured by recycling waste limestone, characterized in that the blend cement 290 ~ 330㎏ / ㎥ and water 70 ~ 110㎏ / ㎥. The method according to claim 1 and 2, Porous eco-concrete by the mixing ratio is a porous eco-concrete manufactured by recycling waste limestone, characterized in that the permeability coefficient is 30 × 10 ^-2 cm / sec or more, the design reference strength is 100 ~ 250㎏ / ㎠. The rectangular parallelepiped manufactured by using the porous eco-concrete prepared by the mixing ratio is formed in the four corners of the side groove portion having three sides in the form of "C" in the corner portion, characterized in that the central through hole formed in the octagonal shape in the center Porous eco-concrete unit block made using porous eco-concrete manufactured by recycling waste limestone. Formed by octagonal left and right symmetrical pillars produced using the porous eco-concrete prepared by the mixing ratio, the upper and lower flat parts are narrow, both side flat parts are relatively wide, the left and right are symmetrical around the upper and lower plane parts Porous eco-concrete connecting pins made from porous eco-concrete manufactured by recycling waste limestone. The method of claim 4, wherein The porous eco-concrete unit block is 45 cm in width, 34 cm in length, and 20 cm in height. A square groove is formed at the corners of the corners, and the central hole is octagonal. Waste limestone, characterized in that the length of the portion in contact with the upper and lower flat portion of the porous eco-concrete connecting pin is 20cm, the width of the portion in contact with the side plane portion is 13cm so that the porous eco-concrete connecting pin can be inserted Porous eco concrete unit block made using recycled porous eco concrete. The method of claim 5, The porous eco-concrete connecting pin is to be inserted into the central through-hole and side groove formed in the center of the porous eco-concrete unit block. Porous eco-concrete connecting pins made using porous eco-concrete manufactured by recycling waste limestone. Arranging slopes of fill and cut; Installing the porous eco-concrete unit block adjacent to the inclined surface, wherein the flat side of the long side is in contact with the flat part of the neighboring long side, and the flat side of the short side is installed in the inclined surface in contact with the flat part of the neighboring short side; And Assembling and installing on all inclined surfaces so that the lower part of the connecting pin is inserted into the ground and is firmly installed while inserting the porous eco-concrete connecting pin into the octagonal through-hole formed by the side groove of the assembled eco-concrete unit block. Porous eco-concrete unit blocks and porous eco-concrete produced using porous eco-concrete manufactured by recycling waste limestone, comprising: Slope assembly method using connecting pins. Arranging slopes of river shores; Installing the porous eco-concrete unit blocks in a row adjacent to each other at a lower end of the inclined surface; Inserting the porous eco-concrete connecting pin into a central hole of the porous eco-concrete unit block; And After the assembly installation is completed at the bottom of the inclined surface, from the next row, the porous eco-concrete connecting pin is inserted into the side groove of the porous eco-concrete unit block. Porous eco-concrete unit block manufactured using porous eco-concrete manufactured by recycling waste limestone, comprising the steps of stacking and installing the laminate in zigzag so that the front half can be installed. Slope assembly method using porous eco-concrete connecting pin.