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    • 2. 发明授权
    • Apparatus for the float concentration of ore
    • 矿石浮选浓度仪
    • US4284499A
    • 1981-08-18
    • US98363
    • 1979-11-28
    • Brij M. MoudgilBooker W. Morey
    • Brij M. MoudgilBooker W. Morey
    • B03D1/00B03D1/02B03D1/14B03D1/24
    • B03D1/00B03D1/021B03D1/085B03D1/1406B03D1/1412B03D1/1475B03D1/24B03D1/028B03D1/06
    • An apparatus and a method for concentrating an ore to recover valuable minerals from the ore is disclosed. The apparatus is based upon flotation separation techniques and comprises a trough into which is fed a slurry of ore particles which have been conditioned with a flotation reagent. The trough has a side extending outwardly forming a downwardly sloping flat table. The slurry of conditioned ore particles flows out of the trough and downwardly along the sloping table. Positioned along the sloping table is a disperser for dispersing larger particles up and into the slurry, which larger particles are generally along the surface of the sloping table. The sloping table is equipped with at least one aerator positioned along the flow path of the slurry, downstream of the disperser which aerates the conditioned ore slurry. The particles coated with the flotation reagent form agglomerates with gas bubbles produced by the aerator. These agglomerates float at a higher level within the slurry than the non-coated, non-agglomerating ore particles. A splitter is positioned near an open end of the sloping table. The splitter height above the surface of the sloping table is adjustable for intersecting the conditioned ore slurry at differing levels. The splitter separates the agglomerative, coated particles floating at a higher level from the non-agglomerative, non-coated particles floating at a lower level in the slurry.
    • 公开了一种用于浓缩矿石以从矿石中回收有价值矿物的装置和方法。 该设备基于浮选分离技术,并且包括槽,其中供给已经用浮选试剂调节的矿石颗粒的浆料。 槽具有向外延伸的一侧,形成向下倾斜的平台。 调节矿石颗粒的浆料从槽中流出并沿倾斜台向下流动。 沿着倾斜台定位的是用于将较大颗粒分散到浆料中的分散器,其中较大的颗粒通常沿着倾斜台的表面。 倾斜台配备有至少一个沿着浆料的流动路径定位的曝气器,在分散器的下游对调节的矿浆进行通气。 涂有浮选试剂的颗粒与曝气器产生的气泡形成附聚物。 这些附聚物在浆料内比未涂覆的非附聚矿石颗粒漂浮更高的水平。 分流器位于倾斜台的开口端附近。 倾斜台表面上方的分流器高度是可调节的,以便与不同水平的调节矿浆相交。 分流器将在较高水平上漂浮的凝聚的涂覆颗粒与在浆液中较低水平漂浮的非附聚的未涂覆颗粒分离。
    • 3. 发明授权
    • Purification of particulate glass by mag separation of impurities
    • 通过杂质的杂质分离来净化颗粒状玻璃
    • US4218310A
    • 1980-08-19
    • US829439
    • 1977-08-31
    • Booker W. Morey
    • Booker W. Morey
    • B03C1/00B03C1/14B03C1/26
    • B03C1/14B03C1/00
    • The present invention relates to the purification of glass, obtained by froth flotation from shredded municipal trash; more particularly, the present invention relates to a process for removing aluminum oxide, especially corundum, and silicon carbide particles or stones, of a size greater than 60 mesh, as impurities from the glass. The process comprises subjecting the froth-floated glass to magnetic separation, especially high intensity magnetic separation, such as that produced by employing a high intensity induced roll magnetic separator. Since such impurities function unexpectedly as magnetics in relation to glass, the refractory impurities are removed from the glass during such magnetic separation. The resulting purified glass can then be employed as glass cullet for production of finished glass articles.
    • 本发明涉及通过粉碎的城市垃圾的泡沫浮选获得的玻璃的净化; 更具体地说,本发明涉及一种从玻璃中除去氧化铝,特别是刚玉和尺寸大于60目的碳化硅颗粒或石头的方法。 该方法包括使浮沫玻璃进行磁分离,特别是高强度磁分离,例如通过使用高强度诱导辊式磁选机产生的。 由于这种杂质作为与玻璃相关的磁性出人意料地起作用,所以在这种磁分离期间,难以从玻璃中除去耐火杂质。 所得到的纯化玻璃然后可用作玻璃碎玻璃,用于生产成品玻璃制品。
    • 5. 发明授权
    • Separation of colored particulate glass
    • 彩色颗粒玻璃的分离
    • US4077871A
    • 1978-03-07
    • US567549
    • 1975-04-14
    • Tribhawan KumarBooker W. Morey
    • Tribhawan KumarBooker W. Morey
    • B03B9/06B07B13/00
    • B03B9/062B07B13/00Y02W30/60
    • Process for color sorting of particulate glass employing as the basic concept the differential heating by irradiation and absorption of preselected colored glass particles and contacting such irradiated and differentially heated glass particles with an organic thermoplastic material which melts over a narrow temperature range, the preselected colored glass particles being heated by such irradiation to within the aforementioned temperature range and causing melting of the organic thermoplastic material in contact with such glass particles but without causing melting of the inorganic thermoplastic material in contact with the other glass particles, and thereby enabling separation of the differentially heated colored glass particles in contact with the melted organic material from the remaining glass particles.According to one feature of the invention for carrying out the above concept, a mixture of particulate colored glass such as amber and flint glasses are coated with 1-tetradecanol, and the amber glass is differentially heated by irradiaton to a temperature in excess of 38.degree. C., causing melting of the tetradecanol, the temperature of this coating on the flint glass being insufficient to melt the coating. The mixture is placed in a froth flotation apparatus in which the amber glass containing the previously melted alcohol coating floats, while the flint glass on which the alcohol coating was not melted, does not, permitting removal of the amber glass, the flint glass remaining in the pulp in the machine.According to another embodiment for carrying out the invention concept, a surface in the form of a glass sheet is coated with 1-tetradecanol, and a mixture of amber and flint glasses are irradiated causing heating of the amber glass absorbing the irradiation to above 38.degree. C while the flint glass which does not absorb such irradiation is not heated to above 38.degree. C. The resulting glass particles are poured upon the tetradecanol coated glass sheet, and following cooling to room temperature the differentially heated amber glass adheres to the alcohol coating while the flint glass does not so adhere and falls off the sheet.
    • 采用基本概念,通过照射和吸收预先选定的有色玻璃颗粒进行差分加热并将这种经过照射和差别加热的玻璃颗粒与在较窄温度范围内熔化的有机热塑性材料接触的颗粒玻璃的颜色分选方法,预选的有色玻璃 通过这种照射将颗粒加热到上述温度范围内,并使与这种玻璃颗粒接触的有机热塑性材料熔化,但不引起与其它玻璃颗粒接触的无机热塑性材料的熔化,从而使差异地分离 加热着色的玻璃颗粒与剩余的玻璃颗粒与熔融的有机材料接触。
    • 7. 发明授权
    • Method and apparatus for recovery of aluminum from solid waste
    • 从固体废物中回收铝的方法和装置
    • US4071442A
    • 1978-01-31
    • US603869
    • 1975-08-11
    • Booker W. Morey
    • Booker W. Morey
    • B03C1/23B03C1/253B03C1/22
    • B03C1/253
    • A comminuted trash mixture containing aluminum and other non-ferrous conductive metals is transferred to a conveyor system having a series of conveyor belts, each successive belt having a higher linear velocity than the preceding belt. A linear motor type separator adjacent the highest speed belt diverts the non-ferrous conductive metals off to one side of the conveyor where it is received by a second conveyor system including a plurality of conveyor belts of successively higher linear speed. A second linear motor type separator is used to divert non-ferrous conductive metals off to one side of the second conveyor group, with the remaining materials on the conveyor being transferred back to the beginning of the first conveyor group for recirculation through the first separator.
    • 将含有铝和其它有色金属导电金属的粉碎的混合物转移到具有一系列输送带的输送机系统中,每个连续的带具有比先前的带更高的线速度。 邻近最高速带的线性电动机型分离器将有色金属导电金属转移到输送机的一侧,其中第二输送系统被接收,该第二输送系统包括连续更高线性速度的多个输送带。 第二直线电动机型分离器用于将有色金属导电金属转移到第二输送机组的一侧,其中输送机上的剩余材料被转回到第一输送机组的开始处,以通过第一分离器再循环。
    • 8. 发明授权
    • Glass recovery
    • 玻璃回收
    • US4070273A
    • 1978-01-24
    • US603868
    • 1975-08-11
    • Booker W. Morey
    • Booker W. Morey
    • C03C1/00B03B9/06B03D1/02C03C12/00B03B1/00
    • B03B9/062B03B9/06Y02W30/521Y02W30/523Y02W30/60Y10S241/38
    • A process is disclosed for recovering purified glass from solid waste which includes a predominantly organic fraction and a predominantly inorganic fraction both of which contain glass particles. The predominantly inorganic fraction is further subdivided into a glass-rich fraction containing glass, inorganic, and organic constituents. The organic constituents are initially separated from the glass-rich fraction. The organics-free fraction is comminuted and screened to remove coarse particles greater than a first predetermined mesh size. The residue is classified to remove fine particles less than a second mesh size. The resultant mixture, after removal of coarse and fine particles, is subjected to froth flotation to form a float containing predominantly glass which is recovered for further use.
    • 公开了用于从固体废物中回收纯化玻璃的方法,其包括主要为有机部分和主要为无机部分,两者都含有玻璃颗粒。 主要无机部分进一步细分为含有玻璃,无机和有机组分的玻璃富集部分。 有机成分最初与富含玻璃的级分分离。 将无有机物级分粉碎并筛分以除去大于第一预定筛目尺寸的粗颗粒。 将残余物分类以除去小于第二筛目尺寸的细小颗粒。 将所得混合物在除去粗细颗粒之后进行泡沫浮选以形成主要含玻璃的漂浮物,其被回收以供进一步使用。
    • 10. 发明授权
    • Hair roller and heat source therefor
    • 卷发器和热源
    • US4958648A
    • 1990-09-25
    • US263234
    • 1988-10-26
    • Booker W. Morey
    • Booker W. Morey
    • A45D2/36
    • A45D2/36
    • A hair roller assembly is shown which includes a hollow roller member (12 and 60) containing a consumable heat source (14 and 62). The heat source is slidable into and out of engagement with the roller member such that, after use, the heat source may be removed and discarded and the roller member reused with a fresh consumable heat source. The heat source may include combustible material (40) or reactants (80). The combustible material is ignited by an electrical heating element (42) connectable to a battery (50). The reactants, when activated by liquid from a syringe (84), create an exothermic reaction for heating the roller member and hair wound thereon. The reactants are contained in a rupturable container (82) which is ruptured by the syringe needle (96) upon actuation of the syringe.
    • 示出了一种发夹组件,其包括含有可消耗热源(14和62)的中空辊构件(12和60)。 热源可以滑动进入和离开与辊构件的接合,使得在使用之后,热源可以被去除和丢弃,并且辊构件重新用新鲜的可消耗的热源。 热源可以包括可燃材料(40)或反应物(80)。 可燃材料由可连接到电池(50)的电加热元件(42)点燃。 反应物当被来自注射器(84)的液体活化时产生用于加热辊构件和卷绕在其上的毛发的放热反应。 反应物被包含在可破裂容器(82)中,该容器(82)在注射器致动时被注射器针头(96)破裂。