161 |
선별기로 분류된 토사 내 이물질 제거장치와 그 제거방법 |
KR1020070029322 |
2007-03-26 |
KR100801533B1 |
2008-02-12 |
김장용 |
본 발명은 선별기에서 선별된 토사 내 이물질 제거장치와 그 제거방법에 관한 것으로, 그 목적은 폐기물(건설 폐기물 포함)을 선별기에서 1차로 선별시 하부로 배출되는 토사 중에서 이물질을 제거하는 장치 및 방법을 제공하는 데 있다.
본 발명의 구성은 공급된 건설폐기물을 포함하는 폐기물을 공급받는 호퍼(또는 진동호퍼)와 호퍼(또는 진동호퍼)로부터 공급된 폐기물 중 수분함유 폐기물 및 토사를 선별하고, 나머지 폐기물에서 이물질을 분리한 후 파쇄장치나 분쇄장치로 이송하는 원형선별기 또는 진동선별기로 구성된 선별장치에 있어서, 원형선별기 또는 진동선별기 하부에 설치된 토사 이송용컨베이어와; 이송용컨베이어의 끝단에 설치된 야적장이송용컨베이어와; 야적장이송용컨베이어에 설치되어 이송용컨베이어에서 낙하하는 폐기물에 바람을 토출하는 공기순환용 미세 이물질분리장치;로 구성되어 토사 중 이물질을 분리하도록 구성한 것을 특징으로 하는 선별기로 분류된 토사 내 이물질 제거장치 및 이를 이용한 제거방법을 특징으로 한다.
토사, 선별기, 이물질, 싸이클론, 건식분류 |
162 |
선별기로 분류된 토사 내 이물질 제거장치와 그 제거방법 |
KR1020070029322 |
2007-03-26 |
KR1020070073658A |
2007-07-10 |
김장용 |
A device and a method for removing foreign materials in the soil sorted by a sorter are provided to produce good soil in a dry type by separating the foreign materials from the soil discharged in sorting the waste material through a circular or flat plate-type sorter. The device for removing foreign materials in the soil sorted by a sorter is composed of a hopper receiving the waste materials including the construction waste; a circular or vibration sorter sorting out the moisture containing waste material and soil from the waste materials fed from the hopper and transferring the rest waste materials to a crusher or a pulverizer; a soil transfer conveyor(1) installed at the lower side of the circular or vibration sorter; a transfer conveyor(2) for an open storage yard installed at the end of the soil transfer conveyor; and a foreign material separator(3) mounted at the transfer conveyor for an open storage yard to blow the wind to the waste materials falling from the transfer conveyor. |
163 |
건설폐기물의 에어 선별장치 |
KR1020060073016 |
2006-08-02 |
KR100734520B1 |
2007-07-03 |
구대환 |
An assorting apparatus for construction waste by blowing air is provided to improve treatment efficiency by simplification of a process and to minimize generation of dust by removing foreign substances using a wind power after firstly assorting the waste with a small size such as earth and sand. The assorting apparatus includes a screen(10), a blower(30), and an air distribution device(40). The screen is formed in a net shape with plural holes, and discharges earth and sand to a lower part while transferring construction waste(60) to the front by vibration when the construction waste is inputted. The blower generates high-pressure wind by rotating a fan by a driving device. The air distribution device is arranged on a front and lower part of the screen with a longish tube shape, and connected to the blower by a first end part formed to be open. The air distribution device scatters and assorts light foreign substances from the construction waste that falls from the screen by discharging the wind inputted from the blower to the front. |
164 |
분진 제거장치 |
KR1020040037643 |
2004-05-27 |
KR1020050112557A |
2005-12-01 |
김태수 |
본 발명은 분진 제거장치에 관한 것으로서, 특히 합성수지 원료를 정전기를 제거한 후 일차적으로 유도판을 통과시키면서 공기를 분사하여 작은 입자의 분진을 분리한 다음, 이차적으로 유도망을 통과시켜 잔존하는 큰 입자의 분진을 분리함으로써, 합성수지 원료에 부착된 분진을 완전히 제거하여 압출 또는 사출 등의 성형공정을 용이하게 하고 완제품의 순도를 높일 뿐만 아니라 결함을 감소시킬 수 있는 분진 제거장치에 관한 것이다.
본 발명은 고형 합성수지 원료에 부착된 먼지 기타 이물질을 분리하는 분진 제거장치에 있어서, 상기 합성수지 원료가 통과하는 정전기제거기; 상기 정전기제거기를 통과한 합성수지 원료를 유도하며 바닥에 여러 개의 통풍구가 절개 형성되는 경사지는 유도판; 상기 유도판의 하부에 형성되는 송풍구에 연결되어 상기 유도판의 통풍구로 공기를 분사하는 송풍팬; 상기 유도판을 통과한 합성수지 원료를 유도하며 바닥이 그물망 형태인 경사지는 유도망; 및 상기 유도판의 상부 및 유도망의 하부에 각각 형성되는 흡입구에 연결되어 상기 유도판 및 유도망을 통과하면서 분리되는 분진을 흡입하는 흡입팬을 포함한다. |
165 |
정맥기의 정맥 선별 장치 |
KR2019690002808 |
1969-06-30 |
KR200007392Y1 |
1971-03-15 |
정차선 |
|
166 |
정맥기의 정맥 선별 장치 |
KR2019690002808 |
1969-06-30 |
KR2019700000611Y1 |
1970-07-25 |
정차선 |
|
167 |
풍력에 의한 현미 분리 장치 |
KR1019540000208 |
1954-07-28 |
KR1019560000537B1 |
1956-02-05 |
정백구 |
|
168 |
Conditioning, biotreatment and composting of construction and demolition debris fines |
US17000273 |
2020-08-22 |
US11679415B2 |
2023-06-20 |
Jean-Simon Bussières-Dicaire; Thomas Drouin; Mathieu Germain; Martin Bureau; Jean Paquin |
A method of valuation of raw fines materials, comprising selectively screening, biotreatment or composting of raw fines materials or selection as fillers in composites. The method comprises screening the raw fines materials to Grade 1 comprising fines materials of a size of at most about 5 mm and Grade 2 comprising fines materials of a size larger than about 5 mm; and at least one of: A) bio-oxydating organic contaminants of the Grade 1; by adding and mixing organic amendment under controlled temperature, nutrients content and water content conditions and monitoring a content of organic contaminants until the content of organic contaminants stops decreasing; and B) composting the Grade 1; by adding and mixing organic amendment under controlled temperature, nutrients content and water content conditions, and monitoring pathogens content and respiration rate; and stopping the addition of organic amendment upon detection of absence of pathogens at a predetermined respiration rate. |
169 |
Grain separation automation and processing equipment and possible materials of identification, classification and quantification of the same; application of process and use of equipment |
US16794329 |
2020-02-19 |
US11650189B2 |
2023-05-16 |
Manoel Henrique Da Silva |
The present application is related to the process of automation of separation by identification, classification and quantification of grains and their possible pertinent materials through equipment that performs such events, aiming at the automation of the whole chain of separation, identification and classification. grain, thus eliminating the human action of the process and thus avoiding errors related to human interaction in the process. This process has 4 steps, as follows: grain and impurities entering the equipment; separation of impurities and grains: grain processing and qualitative and quantitative identification of grains and impurities. The process and equipment can be applied to the separation by identification, classification and quantification of grains such as soybeans, corn, among others, and their possible pertinent materials. |
170 |
COMBUSTION ASH HANDLING METHOD AND SYSTEM, AND PETROLEUM-BASED FUEL COMBUSTION PLANT |
US17606654 |
2020-04-24 |
US20220298602A1 |
2022-09-22 |
Hiroyuki MORI; Seiji TABATA; Suguru YABARA; Tomohiro OSAWA |
A combustion ash handling method of handling combustion ash discharged from a combustion furnace that combusts a petroleum-based fuel includes: separating the combustion ash into a heavy component and a light component by a dry-type separation technique; feeding the light component to the combustion furnace as a fuel; and recovering the heavy component. A metal such as vanadium is separated and extracted from the heavy component of the combustion ash. |
171 |
METHODS AND SYSTEMS FOR SORTING COTTONSEED |
US17692461 |
2022-03-11 |
US20220193732A1 |
2022-06-23 |
Sebastian Ulrich SCHMIDT; Jeff RATLIFF; Benno Franz ULFIK; Fatma Alexia VAN WINSSEN; Tonya CROSSLAND; Hartmut HUEBNER |
Methods and devices for sorting cottonseeds. Methods include the use of an optical sorter to sort cottonseed by color. Additionally, methods include sorting cottonseed using a gravity table to collect high-density seed (“accepts”) and mid-density seed (“middlings”), followed by sorting the mid-density, and optionally, the high-density seed using an optical sorter to collect dark cottonseed, thereby providing high-quality cottonseed for packaging. Devices and systems comprising one or more gravity tables and one or more optical sorters are provided. |
172 |
Apparatus for reclaiming foundry sand |
US14407306 |
2013-05-09 |
US10052681B2 |
2018-08-21 |
Yukinori Aoki |
To provide an apparatus for reclaiming foundry sand that has a fluidized bed that prevents slits from being clogged. The apparatus comprises a tank (3) for reclaiming the foundry sand, a tank (4) for fluidization, an upper portion of which in an upstream side is connected to a bottom of the tank for reclaiming the foundry sand, the tank for fluidization transporting the reclaimed foundry sand and fine powder that drop from the tank for reclaiming the foundry sand, a dust hood (5), and a lower portion of which communicates with an upper portion of the tank for fluidization in a downstream side, the dust hood collecting the fine powder in the tank for fluidization, wherein a fluidized bed (6) in the tank for fluidization has a plurality of inverted V-shaped covering members (13) and a plurality of V-shaped flooring members (14), wherein the inverted V-shaped covering members and the V-shaped flooring members are horizontally and alternately provided so that the inverted V-shaped covering members are at any point above a vertically corresponding point of the V-shaped flooring members, and wherein gaps between end portions of the inverted V-shaped covering members and end portions of the V-shaped flooring members are formed as inclined slits (15) for supplying air. |
173 |
AERODYNAMIC RECIRCULATING BULK MATERIAL SEPARATOR |
US15576715 |
2016-05-24 |
US20180161820A1 |
2018-06-14 |
Olena KOSTRUBIAK |
An aerodynamic recirculating separator of bulk materials that includes an air blower capable of forming an air stream, an outlet stream directing means, a separation chamber including two inlets and two outlets, a loading hopper, at least one discharge channel, a return air duct including a plurality of turning portions, and at least one residue collection chamber. An outlet of the air blower connects to the first inlet of the separation chamber, an outlet of the loading hopper connects to the second inlet of the separation chamber, the first outlet of the separation chamber connects to the return air duct, and the second outlet of the separation chamber connects to the at least one discharge channel. The air blower, the separation chamber, and the return air duct are consecutively connected so as to form a recirculation channel. The separator forms a material particle flow from the loading hopper to the separation chamber, to distribute commercial particles by their aerodynamic parameters in the separation chamber as the commercial particles fall from the loading hopper and are blown by the air stream formed by the air blower, and to remove the commercial particles through the at least one discharge channel. The separator forces remaining material particles into the at least one horizontally flared portion, directs at least a part of the remaining material particles into a residue collection chamber by way of gravity, and injects air into the separation chamber via the discharge channels. The first downstream horizontally flared portion includes a downwardly curved bottom wall and an opening in communication with said flared portion and the external environment. The opening is disposed in a smooth turn zone from said flared portion to the first of the plurality of turning portions, which has an upward turn. |
174 |
METHOD AND APPARATUS FOR SEPARATING CONTAMINANTS FROM COMPOST AND OTHER RECYCLABLE MATERIALS |
US15196647 |
2016-06-29 |
US20180001323A1 |
2018-01-04 |
Garret GILLESPIE |
There is disclosed a method and apparatus for separating stones, fibers and plastics from biodegradable material. In an embodiment, the apparatus comprises: an inclined trough having a feed entry at a top end for receiving the feed material, the inclined trough including a plurality of riffles angled to at least partially hinder and unsettle a flow of the feed material flowing down the inclined trough; one or more vibratory motors configured to induce a vibration in the inclined trough; one or more blowers configured to generate an air flow through overhead air vent nozzles positioned over the inclined trough and directing the air flow to one side of the inclined trough; and a material resilience separator for separating the contaminants from the biodegradable materials in the remaining material. |
175 |
Sifting apparatuses |
US15145240 |
2016-05-03 |
US09849462B2 |
2017-12-26 |
Richard Snoby; Andrew C. Snoby |
Sifting apparatuses for stratifying raw material including a material feed-in device, a material support unit, a gas plenum, a discharge control mechanism, and a reservoir are described. The material support unit receives material from the material feed-in device and has a surface with a plurality of openings for a gaseous medium introduced from underneath the material support unit, thereby effecting loosening and stratification of the material into a layer of relatively heavier material, and a layer of relatively lighter material atop the relatively heavier material. The introduced gaseous medium originates in a pump, is collected in a pressurized reservoir, and is controlled by a metered valve prior to introduction to the material support unit. |
176 |
SIFTING APPARATUSES |
US15145240 |
2016-05-03 |
US20170072404A1 |
2017-03-16 |
Richard Snoby; Andrew C. Snoby |
Sifting apparatuses for stratifying raw material including a material feed-in device, a material support unit, a gas plenum, a discharge control mechanism, and a reservoir are described. The material support unit receives material from the material feed-in device and has a surface with a plurality of openings for a gaseous medium introduced from underneath the material support unit, thereby effecting loosening and stratification of the material into a layer of relatively heavier material, and a layer of relatively lighter material atop the relatively heavier material. The introduced gaseous medium originates in a pump, is collected in a pressurized reservoir, and is controlled by a metered valve prior to introduction to the material support unit. |
177 |
SIFTING APPARATUS |
US14855418 |
2015-09-16 |
US20160354789A1 |
2016-12-08 |
Richard Snoby |
A sifting apparatus for stratifying raw material includes a material feed-in device, a material support unit, a gas plenum, and a discharge control device. The material support unit receives material from the material feed-in device and has a surface having a plurality of openings for a gaseous medium introduced from underneath the material support unit, thereby effecting loosening and stratification of the material into a layer of relatively heavier material, and a layer of relatively lighter material atop the heavier material. The introduced gaseous medium originates in a pump, is collected in a pressurized reservoir and is controlled by a metered valve prior to introduction to the material support unit. |
178 |
POWDER CLASSIFICATION SYSTEM AND METHOD |
US15100892 |
2014-12-04 |
US20160303578A1 |
2016-10-20 |
Ying She; Aaron T. Nardi; Michael A. Klecka |
A powder classification apparatus (10; 110; 210) includes a first chamber (12; 112; 212) that includes a fluidized bed and has an inlet (16; 116; 216A) and an outlet (18; 118; 218), the inlet (16; 116; 216A) configured to receive a gas (G) and distribute the gas 30 (G) in a uniform flow through the first chamber (12; 112; 212), the first chamber (12; 112; 212) configured to receive a powder (P) and the gas (G) and create a fluidization zone, the outlet (18; 118; 218) configured to allow at least a portion of the powder (P) to exit the first chamber (12; 112; 212); and a second chamber (14; 114; 214) having a powder inlet (24; 124; 224) configured to accept at least a portion of the powder (P) from the outlet (18; 118; 218) in the first chamber (12; 112; 212) caused by at least a portion of the powder (P) being ejected from the first chamber (12; 112; 212) by the gas (G). |
179 |
Extended riffle structure for a dry washer |
US14998620 |
2016-01-21 |
US20160243557A1 |
2016-08-25 |
Robert RIECK |
A generally elastic riffle assembly useful with a dry washer is provided with a frame that is receivable within the washer opening through which the mined particulates descend while the washer is agitated to separate the denser particulates and a set of inclined transverse riffles aligned across the frame to form wedge shaped transverse cavities in which the descending particulates are collected. Each of the riffles further include a plurality of generally vertical posts attached to their elevated edges which assist in the separation of the particulate flow and in setting off of the various modes of elastic motion of their corresponding riffle. |
180 |
Extended riffle structure for a dry washer |
US14121481 |
2014-09-10 |
US09259740B1 |
2016-02-16 |
Robert Rieck |
A generally elastic riffle assembly useful with a dry washer is provided with a frame that is receivable within the washer opening through which the mined particulates descend while the washer is agitated to separate the denser particulates and a set of inclined transverse riffles aligned across the frame to form wedge shaped transverse cavities in which the descending particulates are collected. Each of the riffles further include a plurality of generally vertical posts attached to their elevated edges which assist in the separation of the particulate flow and in setting off of the various modes of elastic motion of their corresponding riffle. |