• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    Edible fats and oils are extracted from oil-bearing materials by loading the raw materials onto an inlet end of a flat and fixed conveying surface having elongate slits therein. The materials are conveyed from the inlet end to the outlet end of the conveying surface by scrapers moved by endless chains. Oil extracting solvent is sprayed onto the material on the conveying surface, to produce miscella, which flows through the slits in the surface and into hoppers beneath the surface. The miscella is circulated back to additional sprayers located upstream of the solvent sprayers for spraying the miscella onto the upstream end of the conveying surface. The resulting concentrated miscella is collected in hoppers beneath the surface and delivered to a further use.
    公开号:SU1503685A3
    申请号:SU864028732
    申请日:1986-12-26
    公开日:1989-08-23
    发明作者:Кавамата Есио;Иваи Киеси
    申请人:Сева Сангио Ко., Лтд (Фирма);
    IPC主号:
    专利说明:

    The invention relates to equipment for the recovery of fats and oils from animal or vegetable fat-containing materials, for example, soybean seeds, rapeseed, sunflower, etc.
    The purpose of the invention is to increase the efficiency of oil separation.
    Equipping the extractor with means for feeding miscella in combination with inclined drain plates with drain plate elements allows, with limited dimensions, to obtain a uniform distribution of the oil-removing substance.
    FIG. 1 shows the extractor, a general view; in fig. 2 - the same, front view; in fig. 3 - inclined drain plate with a plate plate attached to it; on
    FIG. 4 is a flat stationary conveying surface with slots for draining the miscella, a transverse section.
    The extractor for edible fats and oils consists of a flat fixed surface 1 of transportation with longitudinal slits 2 for draining the miscella, made in the form of wedge-shaped nets 3. Along the surface of transportation 1, an endless link hinge 4 which is in engagement with the drive 5 is mounted for movement. and tight 6 reels. Scrapers 7 having a predetermined height a are attached to the link hinge belt 4 at a predetermined distance from each other. Flat surface 1
    O1
    about with
    05 00
    ate

    them
    315036
    transport bridges are positioned between the reels 5 and 6 so that the bottom surface of the scrapers 7 on the carrier side of the link hinge belt 4 at night touches the flat transport surface 1. Spray media for the release agent, made in the form of a misalignment pipeline 8, are marked above the transport surface 1, and the inclined drain plates 9 are located under them at some distance; Drain plate elements 10 are attached to the inclined drain plates 9. I have an inclined drain plates 9 also several scraper nails January 1 on the back side end. Distance
    0 between the lower end of the inclined drain plate 9 and a flat surface
    The transportation is practically equal to the thickness of the material and is usually 3-10 times the height of the scrapers 7. The thickness of the material can be varied by means of a rotating plate device 12 located close to the loading device 13. The length of the inclined drain plates 9 is adjusted by means of installation tools, such as screws 14, according to with the thickness of the material.
    The hoppers 15 for collecting the miscella are located below the transport surface 1. Each outlet 16 of the bins 15 is connected to a supply pipe 8 of the means for dissolving the oil-extracting substance placed through the miscella feeding means (not shown) placed next to the loading device 13. A discharge device 17 is located in the output part of the extractor. The extractor is enclosed in an elongated box-shaped body 18.
    The extractor works as follows.
    The oil-containing material is continuously loaded into the extractor through the loading device 13, falls on a flat fixed surface 1 of transportation. The endless link hinge belt 4 is driven by the rotation of the drums 5 and 6 and its scrapers 7 move the material in the direction of the unloading device 17. The height 8 of the material is pre-adjusted by the device 12. When the material passes along a flat fixed surface 1, the extraction is carried out countercurrently. Fresh solvent.
    权利要求:
    Claims (1)
    [1]
    for example, hexane, is dispersed by means of spraying over the material in the vicinity of the zone of the discharge device 17, in which most of the oil is extracted. The solvent through the feed pipe 8 enters the inclined drain plates 9, is distributed on it by the plate drain elements 10 and flows in a uniform flow onto the material layer. The float flows into one of the bins 15 through the slots 2 in the transport surface 1 while simultaneously washing the bottom plane of the endless link hinged belt A. The extracted material is discharged through the discharge device 17. The float from the hopper 15 is terminated close to the loading device 13 pipeline 8, so that the freshest material is extracted with the most concentrated miscella, and the most extracted material with fresh solvent. The concentrated miscella is removed from the device for further processing. Invention Formula
    An extractor for edible fats and oils, including a flat fixed transport surface with slots for glass miscella, an endless link hinge belt with scraper attached to it, mounted for movement along the transport surface, a hopper for collecting the miscella placed under the transport surface, mass dispensing equipment. substances made in the form of a feed pipeline, located above the transporting surface, the loading device, In order to increase the efficiency of the oil separation, it is provided with means for feeding the miscella and inclined draining plates with a drainage plate element attached to them, while the drainage plates are located under the spraying means above the transport surface and the means for feeding the miscella are connected to the hopper collection of miscella and spraying equipment disposed adjacent to the loading device.
    - .tg. I
    2 / gJ
    FIG. I
    类似技术:
    公开号 | 公开日 | 专利标题
    SU1503685A3|1989-08-23|Extractor of edible fats and oils
    US4940187A|1990-07-10|Systematic equipments for recycling raw materials from waste wires
    US10099155B2|2018-10-16|Screen for extractor system
    US10441905B2|2019-10-15|Extractor with screen washing system
    US2824665A|1958-02-25|Object alining apparatus
    US2530676A|1950-11-21|Flotation separator and extractor
    US5268100A|1993-12-07|Manure separator
    US20040146381A1|2004-07-29|Silo unloader
    US2565521A|1951-08-28|Cleaning apparatus for poultry laying batteries
    US4666602A|1987-05-19|Manure separator
    US4151093A|1979-04-24|Stockwasher
    US3752314A|1973-08-14|Flume water recycling apparatus
    US5770082A|1998-06-23|Self-purging extractor
    US3321788A|1967-05-30|Vegetable processing system
    US2314542A|1943-03-23|Apparatus for separating materials
    US2672235A|1954-03-16|Grain cleaner
    US4297091A|1981-10-27|Alfalfa pelletizing apparatus
    US3829986A|1974-08-20|Forage dryer
    US3243039A|1966-03-29|Wood chip washer
    US10899993B2|2021-01-26|Extractor having a solvent drainage zone
    US1791381A|1931-02-03|Manure handler for stables
    US1544894A|1925-07-07|Machine for freeing blueberries from parasites
    CA1290345C|1991-10-08|Method and apparatus for extracting fats and oils
    US2413976A|1947-01-07|Machine for continuous dry powdering or curing seeds and grain
    US556739A|1896-03-24|Alexander b
    同族专利:
    公开号 | 公开日
    US4857279A|1989-08-15|
    US4956125A|1990-09-11|
    KR870005668A|1987-07-06|
    KR930010756B1|1993-11-10|
    JPS62153399A|1987-07-08|
    CN1013584B|1991-08-21|
    CN86103770A|1988-02-10|
    JPH0253480B2|1990-11-16|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US2733136A|1956-01-31|Andrews |
    US728390A|1903-02-02|1903-05-19|Maurice Graham|Hot-coke conveyer.|
    US1155605A|1914-10-31|1915-10-05|Hugh K Moore|Process of making calcium hypochlorite.|
    US2684288A|1946-01-26|1954-07-20|Extraction Continue De Smet Sa|Solvent extraction apparatus with automatic controls|
    US2907640A|1953-08-06|1959-10-06|Metallgesellschaft Ag|Solvent extraction apparatus|
    SU118022A1|1958-06-21|1958-11-30|А.Л. Колтыпин|Belt extractor|
    US4213941A|1978-12-04|1980-07-22|Boomer Merton E|Solvent immersion extractor|
    US4308034A|1980-05-19|1981-12-29|Hoang Dinh C|Apparatus for incinerating and gasifying biomass material|
    US4560568A|1984-01-09|1985-12-24|Maurice Curiel|Process for the recovery of oil from avocado fruit|
    NL8402010A|1984-06-26|1986-01-16|Zaan Cacaofab Bv|FILTER FOR A HIGH-PRESSURE SEPARATOR.|US5666876A|1991-12-20|1997-09-16|Vos Industries Ltd.|Cooking apparatus|
    US5408924A|1992-06-19|1995-04-25|Food Sciences, Inc.|Apparatus for the extraction of edible oils|
    CN1090597A|1993-02-01|1994-08-10|食品科学公司|From cereal materials and cereals base food, leach the equipment and the method for oil|
    US5891433A|1993-08-13|1999-04-06|Silver; Barnard Stewart|Extracting soluble substances from subdivided solids with a water-base liquid extraction medium|
    US5700464A|1993-08-13|1997-12-23|Silver; Barnard Stewart|Process for extracting with liquids soluble substances from subdivided solids|
    US5853488A|1993-08-13|1998-12-29|Silver; Barnard Stewart|Processes for extracting sugars from dates and for making novel food products|
    ZA945796B|1993-08-13|1995-03-14|Barnard Stewart Silver|Method and apparatus for extracting with liquids soluble substances from subdivided solids|
    US5599376A|1995-11-27|1997-02-04|Camp; John D.|Process and equipment to reclaim reusable products from edible oil process waste streams|
    US5770082A|1996-05-02|1998-06-23|Crown Iron Works Company|Self-purging extractor|
    US5783243A|1996-06-24|1998-07-21|Benado; Adam L.|Process for extracting and desolventizing natural oil-containing food products with minimum structural damage|
    AU746204B2|1998-02-11|2002-04-18|James Moir Cargill|Diffuser|
    US6270736B1|1999-01-21|2001-08-07|Frazier, Barnes Research Llc|Identity preserved oilseed mill|
    MY137253A|2003-01-06|2009-01-30|Eonchem Technology Sdn Bhd|Recovering oil from palm mesocarp fibres|
    EP1700526A1|2005-03-10|2006-09-13|Nederlandse Organisatie voor toegepast-natuurwetenschappelijk Onderzoek TNO|Method for finish-frying food product particles|
    CN102307485B|2008-12-23|2013-11-06|波伊特研究股份有限公司|System for production of ethanol and co-products|
    WO2010078528A1|2008-12-31|2010-07-08|Poet Research Incorporated|Zein composition|
    CN101991970B|2009-08-28|2013-06-19|新奥科技发展有限公司|Continuous material extraction system and method|
    US20130032175A1|2010-01-29|2013-02-07|Poet Research, Inc.|Apparatus and method for treating wet solids from a fermentation process|
    CN102350088A|2011-07-15|2012-02-15|江苏华正环保科技有限公司|Method for continuously extracting active substances of plants|
    TWI458921B|2011-07-29|2014-11-01|Scandinavian Biofuel Company As|A novel microwave assisted flash pyrolysis system and method using the same|
    WO2016044237A1|2014-09-18|2016-03-24|Bridgestone Corporation|Extractor and related methods|
    US20160201009A1|2015-01-10|2016-07-14|Aurelio Lopez|Integrated oil extraction apparatus|
    DE102017109981B4|2017-05-09|2019-06-19|Getproject Gmbh & Co. Kg|Device for obtaining lactic acid from ensiled biomass and method for treating silage|
    CN110975326B|2019-12-18|2021-11-23|安庆市中创工程技术有限责任公司|Soy lecithin adsorbs purification device|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    JP60293921A|JPH0253480B2|1985-12-27|1985-12-27|
    [返回顶部]