子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 261 | 수질정화용 콘크리트 블록 | KR1020140054011 | 2014-05-07 | KR101438380B1 | 2014-09-05 | 강정용 |
| The present invention relates to a concrete block for purifying water. An objective of the present invention is to provide the concrete block for purifying water, capable of maintaining water purifying efficiency by increasing the amount of dissolved oxygen to maintain the growth of aerobic microbes in a concrete block for a long period of time. The concrete block for purifying water of the present invention is formed with a concrete mixture including, based on 100 parts by weight of cement, 10 to 20 parts by weight of a microbe activator, 10 to 20 parts by weight of water, and 300 to 600 parts by weight of an aggregate, wherein the microbe activator is formed to include 20 to 30 volume% of 500 to 800 μm micro oxygen bubbles in a mixed solution including a protein hydrolysate, polyethylene-polypropylene glycol, aerobic microbes for purifying water, and water so that independent bubbles and linked bubbles are provided inside the concrete block and the growth of the microbes is maintained and enhanced. | ||||||
| 262 | 비소성 결합재를 이용한 투수블록 | KR1020130131073 | 2013-10-31 | KR101421044B1 | 2014-07-23 | 나영환; 은재기 |
| The present invention relates to a permeant block which uses an unfired binder and has the surface processed. The present invention comprises an unfired inorganic binder, an enzyme-treated mineral fiber, a mineral fiber, a pine resin, aggregates, sand, and a petroform extract, to have excellent strength not to be easily broken by a strong impact and have excellent water permeability not to be filled with water like rainwater. | ||||||
| 263 | 천연 항산화물을 포함한 지오폴리머 모르타르 및 이의 시공방법 | KR1020130155372 | 2013-12-13 | KR101370976B1 | 2014-03-07 | 김상운; 박정근 |
| The present invention relates to geopolymer mortar containing a natural antioxidant and a construction method thereof, and more specifically, to geopolymer mortar containing a natural antioxidant which is capable of preventing the drop of pH due to the penetration of oxides caused by the deterioration and microcracks of a concrete structure by inserting effective microorganism (EM) as an antioxidant into biodegradable microcapsules and then adding the microcapsules to geopolymer mortar, and a construction method thereof. The geopolymer mortar containing a natural antioxidant of the present invention comprises 100 parts by weight of blast furnace slag, 30-50 parts by weight of fly ash, 30-70 parts by weight of an alkaline activator, 30-50 parts by weight of waste concrete powder, 1-10 parts by weight of porous microcapsules having EM, 1-10 parts by weight of an adsorbent, 1-10 parts by weight of reinforcing fibers, and 1-10 parts by weight of biostone. | ||||||
| 264 | 무기계 그라우팅 재료의 제조방법과 무기계 그라우팅 재료를 이용한 콘크리트 균열 보수방법 | KR1020120057305 | 2012-05-30 | KR1020130134058A | 2013-12-10 | 이행기; 김형기; 박수진 |
| The present invention relates to an inorganic grouting material with enhanced densification and watertightness of an existing inorganic grouting material by mixing inorganic grouting materials and microorganisms which are able to form fine calcium carbonate powder and making the microorganisms form calcium carbonate particles among microcracks and micropores in the inorganic grouting material; a method for manufacturing the same, and a method for repairing concrete cracks using the material. The method for manufacturing the inorganic grouting material and a method for repairing the concrete cracks using the same according to the present invention comprise: a step of adding urea to water and preparing a culture medium (S1); a step of adding microorganisms into the culture medium, which forms calcium carbonate, culturing the microorganisms until the concentration of the microorganisms in the culture medium is optimized, and generating a proper culture medium (S2); a step of adding inorganic particles such as cement or geopolymers to the proper culture medium (S3); a injecting the microorganism-mixed inorganic grouting material into the concrete cracks and curing the grouting material (S4); and a step of making the surface of the cured grouting material come in contact with a solution containing urea as a carbonate ion source and a calcium source and incubating for a predetermined time and promoting fine calcium carbonate powder of the microorganisms (S5). [Reference numerals] (AA) Start;(BB) Prepare an inorganic grouting material;(CC) Concentration of microorganisms = set concentration ?;(DD) Repair concrete cracks;(EE) End;(S1) Prepare a culture medium;(S2) Add and culture the microorganisms;(S3) Add inorganic particles into a proper culture medium;(S4) Inject/cure the grouting material to concrete cracks;(S5) Apply urea and a calcium source on the surface of the grouting material | ||||||
| 265 | 수질 정화용 이끼 벽돌 및 이의 제조방법 | KR1020120041588 | 2012-04-20 | KR1020130118596A | 2013-10-30 | 김화중; 도혜원 |
| PURPOSE: A moss brick for water purification is provided to be press-molded with zeolite brick having a large gap in the brick structure, thereby improving the efficiency of removing contaminants in contaminated water. CONSTITUTION: A manufacturing method of moss brick for water purification comprises the following steps: one part by weight of cement and 2-5 parts by weight of fine aggregates are mixed, and water is added to the mixture. 0.5-5 weight% of moss powder is added to the mixture based on the total weight of the mixture. The mixture is press-molded to manufacture the moss brick. The moss brick is distributed in the contaminated water having microorganisms. The microorganisms are absorbed within the zeolite of the moss brick. The fine aggregates contain 75-85 weight% of rubble with a particle size of 1-2mm, 1-10 weight% of stone powder with a particle size of less than 1mm, and 10-20 weight% of zeolite with a particle size of 1-3mm. | ||||||
| 266 | Manufacturing method of environment-friendly construction material from ferro-nickel slag by effective microorganisms treatment | KR20100128041 | 2010-12-15 | KR20120066774A | 2012-06-25 | KIM YEON SUK |
| PURPOSE: A material manufacturing method of environmentally friendly construction materials of ferronickel slag using effective microorganisms are provided to enhance profitability, productivity, and workability by processing converter slag with effective microorganisms. CONSTITUTION: A material manufacturing method of environmentally friendly construction materials of ferronickel slag using effective microorganisms comprises the following steps: directly inserting effective microorganisms into iron making vessel slag with suitable particle sizes or pulverizing the iron making vessel slag into fine particles; activating the iron making vessel slag by chemical-mechanical pulverization; and keep stirring the activated iron making vessel slag with the effective microorganisms. The chemical composition in weight percent based iron making vessel slag is 14-19% of iron oxide(T-Fe), 40-48% of calcium oxide(CaO), 10-16% of silicon dioxide(SiO2), 1-3% of aluminium oxide(Al2O3), 5-8% of magnesium oxide(MgO), and 4-6% of manganese oxide(MnO). | ||||||
| 267 | Water purification block having effective microorganisms and manufacturing method thereof | KR20120018035 | 2012-02-22 | KR101157447B1 | 2012-06-19 | JANG EUN YONG; CHAE HO SUNG; PARK KYUNG JEE; PARK YU SUK; KIM KYUN TAE |
| PURPOSE: A water-purifying non-sintered soil block by using effective microorganisms and a manufacturing method thereof are provided to enable growth of microorganisms and water purification. CONSTITUTION: A water-purifying non-sintered soil block comprises a base material consisting of 10-50 wt% of strength reinforcement ash and 50-90 wt% of general soil having particle diameter of 0.2-23mm, more than one of blast furnace slag micro powder, aluminium sulfate, and natural pulp, Bacillus subtilis and yeast which are useful microorganisms. The soil block additionally includes filter media in order to fix the useful microorganisms. A manufacturing method of the water-purifying non-sintered soil block comprises the following steps: preparing a base material which includes 50-90 wt% of general soil and 10-50 wt% of strength reinforcement ash having particle diameter of 0.2-23mm(s201); adding Bacillus subtillis and yeast(s202); adding the mixture of the previous step into a mold or a mold frame(s203); and molding and solidifying(s204). | ||||||
| 268 | Method to manufacture building materials using from converter slag by effective microorganisms treatment | KR20100107423 | 2010-11-01 | KR20120045708A | 2012-05-09 | BACK CHANG GIL; BAK CHANG NAM; LEE EUN JU |
| PURPOSE: A manufacturing method of environmentally-friendly construction materials using useful microorganisms and blast furnace slag are provided to enable recycle of blast furnace slag as environmentally friendly construction material by processing the blast furnace slag and useful microorganisms. CONSTITUTION: A manufacturing method of environmentally-friendly construction materials using useful microorganisms and blast furnace slag comprises next steps: collecting the blast furnace slag; desiccating the collected blast furnace slag until water content becomes 5.0 or less by passing through a drier; pulverizing the dried slag into pieces having particle size of 50-150 meshes; and mixing microorganism diluents with the electric furnace slag. A drier used for electric furnace slag desiccation has a cylindrical shape and generates 100 deg. Celsius or greater hot air. | ||||||
| 269 | 유용미생물과 전기로 슬래그를 이용한 친환경 건축자재 제조방법 | KR1020100107421 | 2010-11-01 | KR1020120045706A | 2012-05-09 | 백창길; 백창남; 이은주 |
| PURPOSE: A manufacturing method of environmentally-friendly construction materials using effective microorganisms and electric furnace slag are provided to enhance use efficiency of electric furnace slag as construction material by mixing useful microorganism with pulverized electric furnace slag. CONSTITUTION: A manufacturing method of environmentally-friendly construction materials using effective microorganisms and electric furnace slag comprises next steps: collecting electric furnace slag; desiccating the collected electric furnace slag until water content becomes less than 2.0%; pulverizing the dried slag into pieces having particle size of 50-250 meshes; and mixing microorganism diluents with the electric furnace slag. A drier used for electric furnace slag desiccation has a cylindrical shape and generates 100 deg. Celsius or greater hot air. | ||||||
| 270 | 유효미생물을 이용한 고성능 자정 콘크리트 제조 방법 | KR1020090051883 | 2009-06-11 | KR101120078B1 | 2012-03-23 | 양근혁; 심재일 |
| 본 발명은 유효미생물 (effective microorganism) 및 낫토균 (Bacillus natto)으로 이루어진 군으로부터 선택되는 1종 이상의 미생물을 모르타르 또는 콘크리트에 첨가하여 양생하는 단계를 포함하는 고성능 자정(自淨) 콘크리트의 제조 방법 및 상기 방법에 의해 제조된 고성능 자정(自淨) 콘크리트에 관한 것이다. 유효미생물, 낫토균, 모르타르, 고성능 자정 콘크리트, 압축 강도, 어독성 | ||||||
| 271 | Composition for improvement of the compressive strength of concrete mortar comprising bacillus massiliensis knuc402 and lysinibacillus fusiformis knuc404 | KR20100068829 | 2010-07-16 | KR20120008146A | 2012-01-30 | GHIM SA YOUL; KIM WHA JUNG; PARK SUNG JIN |
| PURPOSE: A composition for reinforcing the strength of concrete is provided to improve the compressive intensity of the concrete by mixing bacillus massiliensis, KNUC402(KCTC 11706BP), and lysinibacillus fusiformis, KNUC404(KCTC 11707BP), in concrete mortar. CONSTITUTION: A composition for reinforcing the strength of concrete includes bacillus massiliensis, KNUC402(KCTC 11706BP), and lysinibacillus fusiformis, KNUC404(KCTC 11707BP). A method for reinforcing the strength of the concrete includes the following: Concrete mortar containing bacillus massiliensis, KNUC402, and lysinibacillus fusiformis, KNUC404. The mortar is introduced into a mold to obtain a concrete structure. A curing process is implemented using a culturing medium containing urea and calcium ions. | ||||||
| 272 | 자연 생태계를 보호해주도록 작용하는 친환경 콘크리트 몰탈 제조방법. 그 콘크리트 몰탈을 이용하여 결빙이 되지 않도록 작용하는 도로를 포장하는 방법, 옹벽을 구성하는 방법, 자연 생태계 복원용 인공어초 겸용 계단형 친환경 생태블록을 제조하는 방법, 친환경 블록을 시공하는 방법, 인조 호박돌을 이용하여 자연친화적인 생태보를 구성하는 공법 | KR1020110027852 | 2011-03-28 | KR1020110057088A | 2011-05-31 | 한상관; 한지연 |
| PURPOSE: A method for manufacturing concrete mortar, a method for paving roads using the concrete mortar, method for forming a retaining wall, a method for manufacturing eco-blocks, a method for constructing the eco-blocks, and a method for forming eco-reservoir are provided to prevent the emission amount of toxic components from concrete and prevent the freezing phenomenon of roads. CONSTITUTION: A flexible container(40) with an empty space is prepared. Air or liquid are introduced into the empty space of the flexible container. A discharging unit(41) is installed at the inlet of the container, and the air and the liquid are discharged through the discharging unit. The inlet of the container is sealed. Mortar is obtained by mixing cement, sand, and water. The container is introduced into the mortar in order to obtain concrete mortar. | ||||||
| 273 | 에어로겔 주재의 판재용 바인더 조성물, 이를 이용한 판재 및 이의 제조 방법 | KR1020090084642 | 2009-09-08 | KR1020110026832A | 2011-03-16 | 김영일 |
| PURPOSE: A binder composition for an aerogel-based board, the board using the same, and a method for preparing the same are provided to improve the bondability of aerogel and the strength of the board by optimally mixing mineral powder and a liquid binder. CONSTITUTION: A binder composition for an aerogel-based board is composed of 10-90 weight% of mineral powder and 10-90weight% of a liquid binder. The mineral powder is composed of 5-72.7% of C, 20-86.7% of O, 1-67.7% of Mg, 1-67.7% of Al, 3-69.7% of Si, 0.5-67.2% of S, 0.5-67.2% of Cl, 2-68.7% of Ca, 0.1-66.8% of Ti, 0.05-66.75% of Mn, 0.05-66.75% of Fe, and 0.1-66.8% of In. | ||||||
| 274 | 친환경 시멘트 몰탈 제조방법 | KR1020090134359 | 2009-12-30 | KR100997516B1 | 2010-12-01 | 송영기 |
| PURPOSE: A manufacturing method of an environmentally-friendly cement mortar is provided to create a residential environment harmless to the human body by mixing a fermented liquid to cement mortar. CONSTITUTION: A manufacturing method of an environmentally-friendly cement mortar comprises the following steps: mixing 60wt% of rice bran, 30wt% of sugar, 5wt% of Streptococcum faeclum, and 5wt% of organic material, and adding water to make the amount into 1.5g~2kg; storing the mixture inside a gunny bag for 3~5 days in 30~40 deg C for forming strains; mixing one bag of the strains with 100~150L, and cultivating for 5~7 days in 30~40 deg C to form a fermented liquid; and adding 4~7wt% of fermented liquid to the cement mortar. | ||||||
| 275 | Concrete block composite for water purification with chlorella culture fluid and process of concrete block for water purification and concrete block for water purification thereby | KR20100022762 | 2010-03-15 | KR100995204B1 | 2010-11-17 | LEE YEONG HEE; LEE WOOK HEE |
| PURPOSE: A water-purifying concrete block composition, a manufacturing method of a water-purifying concrete block using thereof, and the water-purifying concrete block are provided to reduce the toxicity of cement, and to secure the excellent water quality purification effect. CONSTITUTION: A water-purifying concrete block composition contains 75~79wt% of aggregate, 15.9~16.6wt% of binder, 0.08~0.09wt% of admixture, 1.31~8.92wt% of water, and 0.2~3wt% of chlorella culture fluid. A manufacturing method of a water-purifying concrete block comprises a step of inserting the water-purifying concrete block composition to a mold and vibrate-molding the block, a step of curing the composition, and a step of separating the mold. | ||||||
| 276 | 미생물 담지용 기포바이오세라믹 제조방법 | KR1020080017091 | 2008-02-26 | KR1020090091886A | 2009-08-31 | 김종완 |
| A bubble bioceramics manufacturing method for microbe immobilization is provided, which has no toxicity and is good for living and growth of microbe. A bubble bioceramics manufacturing method for microbe immobilization comprises: a step(s10) for mixing the illite of 10-300 wt.% about the yellow soil 100 wt.% and obtaining the compound powder; a step(s20) for mixing the pore-forming agent of 5-30 wt.% and water of 5-120 wt.% about the compound powder 100 wt.%, agitating the mixture and obtaining dough; a step(s30) for obtaining the molding product after molding and drying the dough; and a step(s40) for heat-treating the molding product and obtaining the plastic object in which the micro pore is formed. | ||||||
| 277 | 벽면부착용 액자형 황토 타일 및 그의 제조방법. | KR1020070079627 | 2007-08-08 | KR1020070089109A | 2007-08-30 | 엄경자 |
| Provided are a frame type red clay tile for adhesion on wall, which forms a frame when adhered on a wall and removes offensive odor using charcoal exposed on the tile and emits fragrance according to a picture of the frame, and a method for preparing the same. The frame type red clay tile is prepared by the steps of preparing tiles together forming a pattern divided into at least 2 parts(S10); preparing a silicone mold using the pattern(S20); partially putting charcoal into the silicone mold(S30); preparing an injection admixture comprising 100 weight parts of red clay, 20 to 35 weight parts of gyps powder, 40 to 60 weight parts of water and 1 to 3 weight parts of fragrance capsules(S40); putting the injection admixture into the silicone mold and curing at room temperature for 0.5 to 1 hour(S50); and separating the cured tile from the silicone mold(S60). | ||||||
| 278 | TREE-PLANTING METHOD OF CONSTRUCTION FOR STABILITY OF CUTTING AND BUILDING GROUND | KR20060013343 | 2006-02-11 | KR100733917B1 | 2007-06-25 | JUNG SANG WOON |
| A vegetation method for stabilizing cutting and banking slopes is provided to be applicable regardless of soil quality of a cutting slope and to stabilize cutting and banking slopes natural-friendlily. The vegetation method for stabilizing cutting and banking slopes comprises the steps of stabilizing cutting and banking slopes by applying artificial soil composed of 40~60 weight percent water treatment plant sludge, 5~10 weight percent portland cement, 5~10 weight percent gypsum, 10~15 weight percent zeolite and 5~30 weight percent super absorbent polymer on the surface of leveled cutting and banking slopes to a thickness of 10~20cm, attaching a roll type vegetation mat containing seeds to the artificial soil when the drying rate of the artificial soil is above 50%, and spreading organic soil amendment mixed with soil-microbe activator, root elongation accelerator, regolith stabilizer and moisturizer on the attached vegetation mat. | ||||||
| 279 | 숯 합성물 및 그 제조방법 | KR1020050114384 | 2005-11-28 | KR1020070055891A | 2007-05-31 | 최한순 |
| 본 발명은 분말상의 활성숯에 점토광물 및 세라믹, 찹쌀가루 및 전분, 생균제, 수분, 황토 및 수산화철, 설탕 중의 어느 하나 이상을 일정 비율로 첨가한 원료를 혼합하여 성형한 숯 합성물 및 그 제조방법에 관한 것으로, 종래에 있어서는 숯 자체만을 이용하였기 때문에 더욱 상승된 효과를 기대하기가 어렵게 되는 문제가 있었던 바, 일정량의 분말상 활성숯에 점토광물 및 세라믹, 찹쌀가루 및 전분, 생균제, 수분, 황토 및 수산화철, 설탕 중의 어느 하나 이상을 일정 비율로 첨가한 원료를 혼합믹서로 혼합하고, 이송 및 수분조절을 한 후 성형기에 성형한 후 건조하여서 되는 것과, 일정량의 분말상 활성숯에 점토광물 및 세라믹, 찹쌀가루 및 전분, 생균제, 수분, 황토 및 수산화철, 설탕 중의 어느 하나 이상을 일정 비율로 첨가하는 원료첨가단계; 상기 원료를 혼합믹서로 골고루 혼합하는 원료혼합단계; 상기 혼합된 원료를 이송하면서 수분을 조절하는 수분조절단계; 상기 수분조절된 원료를 성형기에서 일정 형태의 제품으로 성형하는 제품성형단계; 상기 성형된 제품의 상태를 검사하는 제품검사단계; 상기 검사를 마친 제품을 건조기에서 건조하는 건조단계; 건조된 제품을 저장 및 포장하는 저장포장단계;로 이루어진 것을 특징으로 하는 본 발명의 숯 합성물 및 그 제조방법에 의하면 첨가되는 성분의 비율에 따라 농업, 축산, 건축, 탈취, 숯불구이 등의 여러 가지 분야에 다양하게 적용함으로써 사용목적에 따른 기능성을 극대화시킬 수 있게 되는 등의 효과를 얻을 수 있게 된다. 숯 합성물, 농업용, 축산용, 건축용, 탈취용, 숯불구이용 | ||||||
| 280 | 유용 균이 살아 숨 쉬는 기능성 판넬 제조방법 | KR1020060046408 | 2006-05-24 | KR1020060066695A | 2006-06-16 | 문유환; 권혁중 |
| 각종 건축재료 중에서 외장재로 쓰이는 판 넬 선택을 잘못 하여 새집증후 군 이나 집 진드기 미세 먼지 곰팡이 아토피 질환 유발 등 의 부작용을 면하기 가 용이 하지 않았다 본 기술은 판 넬 재료를 황토 나 석고 또는 피막 목재로 성형 시킬 때에 특수 배양하여 추출한 토종 토양 미생물을 발포된 질석 공동에 포집시켜 이를 판 넬 몰탈 에 혼합 성 형 시 킴 으로서 판 넬 표면 전면에 내장된 호기성 미생물인 유용 균이 습기나 곰팡이 등 유해물질을 먹이사슬로 삼아 증식하며 상존하여 살아 숨쉬는 판 넬 이 되여 여러 가지 공해방지 용 외장재 등 그 어느 외장재 보다 건강 기능의 효과를 더욱 월등하게 갖는 외장 판 넬 의 제조 방 법 과 그 제품 | ||||||
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