KR100922528B1 - Manufacturing method of a protective block and its construction method - Google Patents

Abstract

PURPOSE: A method of manufacturing a protective block is provided to improve water purifying capability, thereby providing an environment where water plants and fish can live safely. CONSTITUTION: A method of manufacturing a riverside protective block comprises the following steps. Materials of an upper part(110) of a block contacting the surface of water is comprised of fine sand 65~90weight%, charcoal powder 1~5weight%, cement 15~30weight% and illite 0.5~3 weight%. The first mortar is made by mixing the materials. Materials of a lower part(120) of the block supported by a river side is comprised of recycle aggregate 40~60weight%, cement 15~30weight%, sand 20~40weight% and rock dust 5~10weight%. The second mortar is made by mixing the materials.

Description

Manufacturing method of a protective block and its construction method

The present invention relates to a method for manufacturing a bedside protection block, and more particularly, by constructing the upper and lower portions of the bedside protection block with different materials to prevent scour during construction at the bottom of the stream and at the same time improve the self-cleaning ability of contaminated water quality. The present invention relates to a method for manufacturing a bedside protection block to provide an environment in which aquatic plants and fish can safely live.

Generally, river blocks are constructed on rivers, rivers, roads, etc. in order to prevent the loss of the role of the banks or the banks, and the riverbeds meet horizontally next to the bottom concrete foundations on the surfaces where the banks are constructed. ; Riverbed protection block is constructed in the riverbed.

The riverbed protection block protects the lower surface of the river and its adjacent riverbed, and prevents the banks from collapsing due to the flow of river water and the foundation of the structure built on the surface. Done.

Accordingly, in the prior art, a gabion filled with stones such as large gravel and crushed stone was installed on the bottom of a wire mesh having a mattress shape, but the wire mesh eroded by a coating wire forming a gabion after a predetermined time after construction and the wire due to the impact during flooding. If this breaks, there was a problem that the riverbed is finally washed again.

Therefore, in recent years, instead of the gabions, the construction of a riverbed protection block made of concrete, at this time to fill the empty space of the bedrock protection block, such as gravel, crushed stone and planting aquatic plants or planted a pile in the space It can also be anchored to the bottom.

However, the riverbed protection block composed only of concrete is fixed on the riverbed, and the water purification is performed only by the aquatic plants planted in the empty space, and the gravel or crushed stone filled in the space of the riverbed protection block is simply a means for fixing the block. It is difficult to expect the water purification function because it is used as a rather organic matter is adsorbed on the gravel or crushed stone has a problem of contaminating the water quality.

In addition, organic materials or suspended solids are adsorbed to the exterior of the block by the concrete material, which is the main material of the bed protection block, which eventually increases the turbidity of the water quality, deteriorates the exterior, and reduces dissolved oxygen.

Therefore, the present invention was devised to solve the above problems, the present invention is the upper material of the block in contact with the water surface is 65 to 80% by weight of silt, 1 to 5% by weight of charcoal powder, cement 15 30 wt% and 0.5-3 wt% of illite, and mixing them to obtain a first mortar; The lower 120 material of the block supported on the bed is composed of 40 to 60% by weight of recycled aggregate, 15 to 30% by weight of cement, 20 to 40% by weight of sand, and 5 to 10% by weight of stone powder. Obtaining; Injecting the first mortar into a mold (die); Injecting a second mortar onto the first mortar; Vibrating pressure molding the mixture introduced into the mold; Precuring the molded block at room temperature; It is an object of the present invention to provide a method for manufacturing a bed protective block consisting of the step of curing the cured block again with steam.

In addition, when the mixture is injected into the mold by vibrating pressure molding by vibrating pressure molding machine by vibrating 5 ~ 10 seconds, pressurized 6 ~ 12kgf / cm ² , and during the steam curing, the temperature rise rate 10 ℃ / hr for 6 hours first It is an object of the present invention to provide a method for preparing a bed protective block, which is configured to cure a secondary steam at a rate of temperature drop of 3 ° C./hr after primary steam curing up to 80 ° C. for 14 hours.

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As described above, the present invention comprises upper and lower parts of the lower protective block, but the upper part of the block is configured to be partially exposed to the surface of the river, so that the charcoal or illite may be released when the water is worn by the flow rate of rainwater or river water. The main material is composed of silt so as to improve the purification function of contaminated water quality, and at the same time to form a water flow path to guide the flow direction of the flowing water in the forward direction to prevent the washing of the bed.

In addition, the lower portion of the block fixed to the bed in the bed protection block is composed of recycled aggregate, cement, sand, etc., not only can be securely fixed on the bed, but also has the effect of reducing production costs and costs by recycling the resources.

In addition, by sequentially putting the materials constituting the upper and lower parts of the block into one mold (form), vibrating pressure molding and steam curing have the effect of increasing the binding force of the upper and lower blocks and maintain a more tightly coupled state.

In addition, the present invention is to fill the vegetation space formed in the center of the bed protection block to the functional ceramic and the carrier in a certain ratio and the upper part is fixed by covering with a separation prevention net so as not to leave the filler to enhance the activity of the microorganism and antibacterial and It is a very useful invention that can expect the effect of odor removal, water purification and the like.

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

The method of manufacturing the bed protection block 100 according to the present invention is the material of the upper portion 110 of the block in contact with the water surface of the silt 65 ~ 80% by weight, charcoal powder 1 ~ 5% by weight, cement 15 ~ 30 Wt%, 0.5 to 3% by weight of illite, and mixing them to obtain a first mortar; The lower 120 material of the block supported on the bed is composed of 40 to 60% by weight of recycled aggregate, 15 to 30% by weight of cement, 20 to 40% by weight of sand, and 5 to 10% by weight of stone powder. Obtaining; Injecting the first mortar into a mold (die); Injecting a second mortar onto the first mortar; Vibrating pressure molding the mixture introduced into the mold; Precuring the molded block at room temperature; Curing the cured block with steam again.

At this time, the time for pre-curing the molded block at room temperature is preferably 6 hours, and when the mixture is injected into the mold by vibrating pressure molding machine by vibration 5 ~ 10 seconds, pressurized 6 ~ 12kgf / cm ² In the steam curing, the first steam is cured at 80 ° C. at a temperature increase rate of 10 ° C./hr for 6 hours and then the second steam is cured at 3 ° C./hr.
The said silt means fine sand and sand of 0.2-0.02 mm particle diameter.

The upper portion 110 of the block has an arbitrary shape and is configured to partially expose the river surface as shown in FIG. 6. That is, the upper part 110 of the block partially exposed to the water surface forms a flow path of water to guide the direction of flowing water in the forward direction, thereby preventing the base of the structure that is scoured from the bottom of the structure or that is constructed at the lower end of the surface and is lost. Edo aeration (曝氣) caused by the flowing water is to supply dissolved oxygen in the water.

At this time, the upper part 110 of the block is composed of 65 to 80% by weight of silt, 1 to 5% by weight of charcoal powder, 15 to 30% by weight of cement, and 0.5 to 3% by weight of illite. Sand (65 to 80% by weight) is used to make the melting and mixing with other additives well, and when the top 110 of the block wears due to the flow rate of rainwater or river water, It is released to the water to maximize the water purification of charcoal and illite.

And the charcoal neutralizes the toxicity of the cement and is mixed for the effects of humidity control, anion generation, antibacterial and odor removal with water purification of contaminated water, the illite neutralizes the toxicity of cement toxicity with charcoal powder, heavy metals And to be mixed for water purification, increased dissolved oxygen in water, antibacterial effect due to the removal of toxic gas, the charcoal powder and illite when mixed in 1 to 5% by weight, illite is 0.5 to 3% by weight To maximize the efficacy of.

And the cement is used by mixing 15 to 30% by weight of the total weight as a binder of the mixture, when the minimum weight of the cement is less than 15% can not serve as a binder, the maximum weight is more than 30% In this case, the effect of the composition of charcoal powder and illite can not be expected in excess.

On the other hand, the lower portion 120 of the block is a block supported on the lower bed 40 ~ 60% by weight, cement 15 ~ 30% by weight, sand 20 ~ 40% by weight, stone powder 5 ~ with excellent strength and durability to enable a firm fixing It is composed by mixing at 10% by weight.

At this time, the recycled aggregate is composed of 40 ~ 60% by weight of the total weight in the mixture is to minimize the emission of harmful substances as well as saving resources by using recycled aggregate out of cement toxicity. In addition, 40 to 60% by weight of the recycled aggregate is mixed because the strength and strength of the block is reduced when the minimum weight is less than 40%, and the bonding strength is significantly decreased when the maximum weight is more than 60%.

And composed of 20 to 40% by weight of sand, 5 to 10% by weight of stone powder is to maximize the bonding strength between each composition when mixed with recycled aggregate using cement as a binder, the weight of the sand and stone powder is based If less than or exceeds the amount is because the coupling force of the upper block 120 falls.

In addition, the cement is used in a mixture of 15 to 30% by weight of the total weight can not serve as a binder when the minimum weight of the cement is less than 15%, and when the maximum weight is more than 30% in excess in the stone powder This is because the neutralization effect of cement toxicity and the block strength and strength cannot be expected.

Meanwhile, the upper part 110 of the block and the lower part 120 of the block are sequentially put into one mold, and at the same time, the vibratory pressure forming and steam curing process the binding force between the upper part 110 of the block and the lower part 120 of the block. To make it higher and more firm.

Referring to the construction method of the lower bed protective block 100 manufactured as described above in detail.

The construction method of the lower bed protective block 100 of the present invention comprises the steps of flattening a predetermined position of the lower bed; Installing the lower bed protection block (100) on the lower side and combining the blocks from side to side, the adjacent block fixing the connection wire (101) with a clip (101a); Some of the installed lower bed protection block 100 is fixed to the bottom by driving the stabilization pile 103 in the vegetation space portion 102, and some of the functional ceramic and carrier in the vegetation space portion 102 5-7: 2 ~ After filling with a weight ratio of 5 is configured to cover the top of the vegetation space portion 102 with a departure prevention net 130 and fixed.

At this time, after the predetermined position of the lower bed, that is, the predetermined position of the lower bed installed on the lower end of the flat surface before installing the lower bed protective block 100 may be installed on the floor while laying the non-woven fabric on the floor. The nonwoven fabric prevents floating or organic matter from the bottom of the bed through the vegetation space portion 102 of the bed protection block 100, and helps to root the vegetation plant in the vegetation space portion 102 when planting. In this case, when the functional ceramic or carrier is filled therein, it serves to prevent falling out of the bed.

And the lower protective block 100, as shown in Figure 3, to secure the connection wire 101 with a clip 101a to prevent flow between adjacent blocks.

At this time, some of the fixed bed protection block 100 is embedded in both sides of the vegetation pile 103 in the plant pile 100 fixed to the bottom again, and some of the functional inside the vegetation space 102 After filling the ceramic and the carrier with a weight ratio of 5-7: 2-5, it is fixed by covering the upper portion of the vegetation space portion 102 with a departure prevention net 130.

In addition, the inside of the vegetation space portion 103 is installed in the preservation pile 103 may be planted aquatic plants 104, as shown in Figure 4, the departure prevention net consisting of aluminum material that does not corrode in water ( 130 may be installed on the upper portion of the vegetation space 102 to prevent the functional ceramic and the carrier filled therein from being separated out.

At this time, the functional ceramic is a circular sphere having a diameter of 10 to 18 mm, a porosity of 58 to 68%, and a functional sintered aggregate to promote the activity of microorganisms, and a cylindrical size of 70 * 60 mm and a hole inside, so it is highly breathable. It means a functional adsorption ceramic that has a great effect on improving the water quality through the purification of ceramics.

In addition, the carrier (BCT Media) is a structure used for the purpose of improving the concentration and properties of aquatic microorganisms to provide a space for microorganisms to attach and inhabit, consisting of a variety of forms other than columnar, rod-shaped, It will help with habitat and promote biodegradation.

As such, the functional ceramic and the carrier filled in the vegetation space portion 102 of the bed protection block 100 can be expected to enhance the activity of microorganisms in the state submerged in water, and in addition to antibacterial and odor removal, water purification and the like. .

As described above, the present invention has been described by means of a limited embodiment, but the present invention is not limited thereto, and the technical spirit of the present invention and a patent will be described below by those skilled in the art to which the present invention pertains. Various modifications and variations will be possible within the scope of the claims.

1-a plan view showing an embodiment of the present invention a bed protection block.

2-a side view of FIG.

3 is a reference diagram showing a connection state of the present invention the bed protection block.

4 is a plan view showing another embodiment of the present invention a bed protection block.

5-4 are sectional views taken along the line V-V.

6-Reference state of use of the present invention.

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

100: present invention bed protection block

101: connection wire 101a: clip

102: vegetation space department 103: embalming pile

104: aquatic plants 110: upper block

120: lower block 130: escape prevention network

Claims (3)

The upper 110 material of the block in contact with the water surface is made of 65 to 80% by weight of silt, 1 to 5% by weight of charcoal, 15 to 30% by weight of cement, 0.5 to 3% by weight of illite, Mixing them to obtain a first mortar; The lower 120 material of the block supported on the bed is composed of 40 to 60% by weight of recycled aggregate, 15 to 30% by weight of cement, 20 to 40% by weight of sand, and 5 to 10% by weight of stone powder. Obtaining; Injecting the first mortar into a mold (die); Injecting a second mortar onto the first mortar; Vibrating pressure molding the mixture introduced into the mold; Precuring the molded block at room temperature; The method of claim 1, characterized in that it comprises the step of curing the cured block with steam again. According to claim 1, wherein the mixture is injected into the mold by vibrating pressure molding machine for vibration 5 ~ 10 seconds, pressurized 6 ~ 12kgf / cm ² by a vibration pressure molding machine, the temperature rise rate during the steam curing for 6 hours first Method for producing a bed protective block, characterized in that configured to secondary steam curing at 10 ℃ / hr to 80 ℃ primary steam curing rate for 3 hours and then 3 ℃ / hr. delete

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