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 |
|---|---|---|---|---|---|---|
| 141 | High purity x chromosome held sperm population and y chromosome holdings sperm population of | JP2001582502 | 2001-05-09 | JP2003532411A | 2003-11-05 | ケネス エム. エバンズ,; ムンステル, エリック ベー. ファン |
| (57)【要約】 高い純度を有する、天然には存在しない精子の単離された集団(15)、ならびに質量、容量、配向または発光される光のような特徴に基づいて、精子(28)を区別する技術であって、分析の方法ならびにビーム形成光学要素(30)および検出器(32)のような装置を含む。 本発明の幅広い目的は、単離された高純度のX染色体保有集団およびY染色体保有集団の精子を提供することであり得る。 高純度を有する、単離された非天然の集団の精子は、高純度集団の精子に対する適用のほんの数例として述べる、哺乳動物からの子孫の性選択、卵の授精のための種々のインビトロプロトコル、人工授精のような種々のインボプロトコル、受賞動物または食肉動物の産生を含むビジネス方法、あるいは希少なまたは絶滅の危機にある動物の保存を含む多くの適用を有する。 | ||||||
| 142 | Placer gold digging and sorting method and digging and sorting system | JP23133297 | 1997-08-27 | JPH1157527A | 1999-03-02 | MATSUFUJI TAMISUKE |
| PROBLEM TO BE SOLVED: To automatically separate placer gold, sand, etc., by sucking a mixture of the sand contg. placer gold and water, accelerating the mixture by a fluid jet and applying gravity concentration to the flowing mixture. SOLUTION: When a flow is generated in a transfer pipe 4 as shown by the arrow 13, an upward flow is also generated in a sand lifting pipe 2 through a connecting pipe 8 as shown by the arrow 14. When the flow at a speed of 3 m/sec is generated in the transfer pipe 4, a flow at the same speed is generated in the sand lifting pipe 2, and the sand and water are sucked from the lower end of the pipe 2 in the amt. corresponding to the flow rate. Separation boxes 5, 6 and 7 are connected in series at regular intervals in the transfer pipe 4. Since the cross-sectional area in the boxes 5, 6 and 7 is larger than that of the transfer pipe 11, the flow velocity is lowered in proportion to the cross-sectional area, and sand, etc., are deprived of buoyancy. Consequently, the placer gold high in sp.gr. are settled first, and the materials higher in sp.gr. are successively settled and separated. | ||||||
| 143 | Wash remaining 渣再 usage and apparatus of ready-mixed concrete, etc. | JP19122490 | 1990-07-19 | JPH07115895B2 | 1995-12-13 | 佳久 中西; 孝雄 大崎; 文夫 岩瀬 |
| 144 | JPH03502424A - | JP50277489 | 1989-02-06 | JPH03502424A | 1991-06-06 | |
| A process for the purification of soil contaminated with organic material is provided. The preferred process generally involves superposed attrition (35) and classification (40) processes, which lead to removal and concentration of highly comtaminated fractions. The process may also include a step of flotation (60) whereby hydrophobic materials in the soil are released to an interface with air bubbles, and are floated to the top of a flotation cell. In preferred processes according to the present invention, soil to be treated is extracted from a contaminated site, and is broken into relatively small particles. These particles are preferably treated in attrition and classification steps, to remove fine, slow settling, contaminated materials such as wood and fine soil materials. The resulting isolated coarser materials are then treated by flotation for a final polishing step. The process is particularly well adapted for use in treating soil contaminated with oil and grease materials containing PCP therein, from wood treatment plants or the like. | ||||||
| 145 | JPS6341618B2 - | JP5402084 | 1984-03-21 | JPS6341618B2 | 1988-08-18 | MYASHITA HIROICHI; NAKAZAWA HAJIME; HISATSUNE MASAYUKI |
| 146 | Manufacture and equipment for finished products from gravel and sand | JP14503486 | 1986-06-23 | JPS623054A | 1987-01-09 | KURAUSU BURE |
| 147 | JPS61501026A - | JP50104785 | 1985-01-23 | JPS61501026A | 1986-05-22 | |
| 148 | Recirculation of catalyst in suspended gas bubble type reacter | JP20563084 | 1984-10-02 | JPS6186937A | 1986-05-02 | MOCHIDA NORIAKI; MAEDA AKIHIRO; YOKOYAMA TAKASHI; KAMETANI TAKAHARU; HASHIMOTO YOSHIKI; MORIYAMA YOSHITAKA |
| PURPOSE:To effectively separate a solid and a catalyst, by adjusting the particle size of a catalyst to 2mum or less and guiding a suspension after a gas-liquid separation process to a liquid cyclone to return the overflow part thereof to a reaction process while sending the collected part thereof to a purification process. CONSTITUTION:The particle size of the ferrous catalyst thrown in a grinder 2 is adjusted to 2mum or less and a liquid cyclone 20 is arranged to the rear stage of a receiving tank 9. Then, the liquefied slurry from a gas-liquid separator 8 is guided to said cyclone 20 to be separated into an overflow part (clarified liquid) thereof and an underflow part (collected part). Because the particle size of the catalyst is made small, the greater part of said catalyst is transferred to the side of the overflow part and returned to the side of a grinder 2 as medium oil. The collected part is sent to a vacuum distillation tower 1 where formed oil is separated at every product. Ash, unreacted coal and a slight amount of the catalyst are discharged out of the system as residues. | ||||||
| 149 | JPS603850B2 - | JP50162681 | 1981-04-16 | JPS603850B2 | 1985-01-31 | JIAN DARERU DEII; KUAMU RABATO DEII; UORUDO MAIKURU GAAMA |
| 150 | JPS57502093A - | JP50162681 | 1981-04-16 | JPS57502093A | 1982-11-25 | |
| 151 | Reduction of sulfur and ash content of coal | JP2978681 | 1981-03-02 | JPS56136897A | 1981-10-26 | JIYUI YUAN SAN; EMETSUTO EICHI BAAKU JIYUNIA; JIN SAN YOO; JIYOOJI PIITAA MASOROGITESU |
| 152 | Method of recovering desired valuable substances | JP13225476 | 1976-11-02 | JPS5286977A | 1977-07-20 | FURANKU PIITAASON HAUORUDO |
| 153 | Treating method of nickel ore | JP3811176 | 1976-04-05 | JPS51122618A | 1976-10-26 | ANTONIOSU NESUTORIDEISU |
| 154 | 一种矿选系统 | CN201520111566.1 | 2015-02-15 | CN205095934U | 2016-03-23 | 胡沿东; 张进才; 张珂 |
| 本实用新型提供了一种矿选系统,包括辊压机、稳流仓、风力分级系统、动力筛分系统和干式磁选系统,其特征在于:所述矿选系统为纵向布置。所述矿选系统节省了占地面积,在物料流通时无需使用皮带输送机进行输送,节省了巨大的成本和能耗;而且在矿选过程中无需用水,节省了水资源,能够应用在缺乏水资源的地方。 | ||||||
| 155 | 一种矿选系统 | CN201520111914.5 | 2015-02-15 | CN204974152U | 2016-01-20 | 胡沿东; 张进才; 张珂 |
| 本实用新型提供了一种矿选系统,包括辊压机、稳流仓、风力分级系统、动力筛分系统和干式风磁选系统,其特征在于:所述磁选系统还包括设置于基面的支撑架,所述支撑架从基面向上分为四层,从底层到顶层依次为第一层到第四层,所述辊压机设置在所述支撑架的第一层,所述稳流仓设置在所述支撑架的第二层,所述风力分级系统设置在所述支撑架的第三层,所述动力筛分系统设置在所述支撑架的第四层,所述干式风磁选系统设置在所述支撑架的第一、二和/或三层。本实用新型具创造性的将矿选系统设计为“楼房”式的布置,能够最大程度地节省所述矿选系统的占地面积以及减少土建基础的投资成本和建设费用。 | ||||||
| 156 | 一种基于含硅混合物的铁粉回收系统 | CN201621352905.6 | 2016-12-09 | CN206343281U | 2017-07-21 | 羊实; 周旭 |
| 本实用新型公开了一种基于含硅混合物的铁粉回收系统,包括通过管道依次连接的流体搅拌设备、旋流器、混合池、反应罐、沉淀池、过滤池,磁鼓分离器,首先流体搅拌设备将含有铁粉、硅渣的混合液通过管道输送到旋流器,旋流器将底流口排出的颗粒输送至混合池,混合池将混合液输送至反应罐,反应罐中的混合液输送至沉淀池沉淀,沉淀池中的沉淀物输送存储桶中,将沉淀池中的液体输送至过滤池过滤,过滤后的液体输送至磁鼓分离器,过滤后的固体输送至存储桶中,磁鼓分离器将吸住的固体颗粒输送至存储桶;本实用新型解决了现有工业废料中的硅铁混合物中的铁不能被回收利用,造成资源浪费和环境污染的问题。 | ||||||
| 157 | 모래 생산 장치 | KR1020170106144 | 2017-08-22 | KR101871994B1 | 2018-06-27 | 강희철 |
| 본발명의목적은장비의제조단가를낮추고, 모래를사이즈별로선별할때, 선별부의타공망이막히는것을방지하는모래생산장치를제공하는것이다. 본발명의일 실시예에따른모래생산장치는, 토분을포함하는모래를공급하는공급부, 공급된토분과모래를적어도 1회선별하여이송하는선별부, 및선별이송된토분과모래를적어도 1회세척하고이송하여제품을생산하는세척부를포함하며, 상기선별부는간격을유지하면서 2중으로설치되어진동하는제1타공망과제2타공망을포함하고, 상기제1타공망상으로물을공급하여, 상기제1타공망으로이송되는토분과모래를상기제1타공망과상기제2타공망을통하여선별한다. | ||||||
| 158 | 분체의 분급 방법 | KR1020137027141 | 2012-02-24 | KR1020140016334A | 2014-02-07 | 고자와가즈미; 안도고스케; 사토다이스케 |
| 분체의 분급 방법에 있어서, 분체와 액체 조제를 혼합하는 혼합 공정과, 상기 혼합 공정에서 혼합된 상기 분체를 건조시키는 건조 공정과, 상기 건조 공정에서 건조된 상기 분체를 유체 분급기로 투입하는 투입 공정과, 기체를 가열하는 가열 공정과, 상기 가열 공정에서 가열된 상기 기체를 상기 유체 분급기로 공급하는 공급 공정과, 상기 유체 분급기에서 상기 분체를 입경에 따라 분급하는 분급 공정을 포함한다.
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| 159 | 준설선에 의해 채취된 준설물을 처리하는 방법 및 장치 | KR1020117024225 | 2010-03-15 | KR1020110136863A | 2011-12-21 | 밴디케스테판 |
| 본 발명은 준설선(30)에 의해 채취된 준설물(50)을 처리하기 위한 방법 및 장치에 관한 것이다. 이 방법에서 준설물(50)은 준설선(30)으로부터 적어도 하나의 원심 분리기(10)로 공급되고, 원심 분리기는 준설물을 축축한 부분(51) 및 건조한 부분(52)으로 분리하고, 여기서 적어도 상기 건조한 부분은 수집된다. 마찬가지로, 본 발명은 다량의 준설물을 채취 구역들로부터 상당히 멀리 떨어져 위치된 회수 구역으로 운반하기 위한 방법에 관한 것이다. 이 방법은 준설선(30)보다 상당히 큰 치수들을 갖는 항해 수송선(40)을 이용하여, 이러한 목적을 위해 수송 가능한 상태로 되는 준설물을 수송하는 것을 포함하고, 여기서 수송 가능한 상태는 상기한 방법에 따라 준설물을 처리하여 달성된다. | ||||||
| 160 | SYSTEM FOR DISPOSING OF SEDIMENT | KR20090115947 | 2009-11-27 | KR100942564B1 | 2010-02-16 | KANG SUCK HWAN; LEE JONG TAG |
| PURPOSE: A dredged material processing system is provided to remove separated organic materials and floating materials with a biological treatment facility by transferring the materials to a linkage processing facility after separating cleaning water in which organic material is included. CONSTITUTION: A dredged material processing system comprises the following: a drum washing machine(200) receiving dredged materials transferred from a storage tank(100); an adulteration dehydrating screw press(250) receiving the dehydrated dredge materials; a sediment dehydrating conveyor press(330) receiving the sediment through a sediment process; a sediment storage device(340) receiving the dehydrated sediment; and a washing water storage tank receiving washing water containing organic materials. | ||||||
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