| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 新型分离机进料器 | CN201610550165.5 | 2016-07-13 | CN106111317A | 2016-11-16 | 承忠富 |
| 本发明公开一种新型分离机进料器,出料管一端与料斗相连通,另一端向外延伸,支撑脚安装在料斗底部;料斗内设送料螺杆,一端与驱动机构连接,另一端朝向出料管延伸;驱动机构驱动送料螺杆自转;料斗顶端敞口盖设过滤网,过滤网中间设箅子,箅子网眼小于过滤网网眼;敞口沿送料螺杆轴向方向边沿竖直向上延伸有相对设置一对防溅组件,包括竖直设置支撑板和防溅板,支撑板底端固接在敞口上,防溅板一端铰接在支撑板顶端,另一端通过弹簧与支撑板内侧壁相连接;一对防溅组件之间通过两块侧板相连接。送料螺杆螺旋叶片上沿周向设有多组金属刷,刷毛一端固接在螺旋叶片上,另一端向外延伸。结构简单、操作方便,使砂石难以溅出,提高砂石分离效率。 | ||||||
| 2 | 一种喷砂分离清洗装置 | CN201710703194.5 | 2017-08-16 | CN107442265A | 2017-12-08 | 花世军; 刘忠军 |
| 本发明提供了一种喷砂分离清洗装置,包括电机、减速机、联轴器、筒体以及设置在筒体内部中间的主轴,所述的电机连接减速机,所述的减速机连接联轴器,所述的联轴器连接主轴,其创新点在于:所述筒体内设置有筛分导向装置,该筛分导向装置安装在筒体端头部;所述筒体端中部及端尾部分隔出两个分离腔室;所述筛分导向装置包括导向筒和筛分器,所述导向筒安装在筛分器正上方,且两者不接触;所述导向筒包括两端均未封闭的竖直筒,所述竖直筒靠近筒体端头部的未封闭端处设置有砂石循环螺旋系统。 | ||||||
| 3 | 无动力旋流式分矿器 | CN201610729284.7 | 2016-08-26 | CN106076610A | 2016-11-09 | 林庆水; 陆毅 |
| 无动力旋流式分矿器,其中,接矿桶设置在分矿桶内,进矿管通过分矿桶上部设置的进料口伸入至接矿桶内,以将矿浆引导至接矿桶内,接矿桶下部设置有用于支撑接矿桶的支撑机构;并在接矿桶侧面开有多个用于矿浆旋流的出矿孔,同时在每个出矿孔处安装有分矿小管,分矿小管与转流机构连接,转流机构与摇床连接。本发明利用总矿管的冲力与分矿效果的切向力作用推动接矿桶旋转,并通过矿浆格将接矿桶旋转分流的矿浆分配给每台摇床,从而实现无动力旋流分矿,且接矿桶为圆柱形结构,以防止矿浆沉淀;结构简单,安装方便,操作便捷,有效实现均匀分矿,从而提高摇床的工作效率,也提高了选矿回收率,实用性强。 | ||||||
| 4 | 带有矿浆平均分配装置的分矿筒 | CN201511025111.9 | 2015-12-30 | CN105562194A | 2016-05-11 | 郭黎明; 孙青松; 邵敏 |
| 本发明公开了一种带有矿浆平均分配装置的分矿筒,包括带有底板的圆筒状容器,所述底板上开设若干个矿浆出口,且矿浆出口圆周分布在所述底板上,所述圆筒状容器的底板中央设置一溢流筒,且溢流筒与圆筒状容器同轴心;在溢流筒的正上方设置一矿浆输入直管,该矿浆输入直管与溢流筒、圆筒状容器同轴心,矿浆输入直管固定在圆筒状容器上;矿浆输入直管的直径小于溢流筒的直径。矿浆经竖直的矿浆输入管进入分矿筒,落到溢流筒中。因矿浆输入管的直径明显小于溢流筒直径,矿浆流会落在溢流筒中心或接近溢流筒中心。竖直的矿浆输入直管在制作分矿筒时就焊接在分矿筒上方,以确保垂直度和同心度。 | ||||||
| 5 | 可升降分离机进料器 | CN201610550508.8 | 2016-07-13 | CN106179725A | 2016-12-07 | 承忠富 |
| 本发明公开了一种可升降分离机进料器,包括料斗、两根支撑脚和出料管;出料管的一端与料斗相连通,另一端朝向料斗外延伸,两根支撑脚安装在料斗的底部;料斗内部设有送料螺杆,送料螺杆的一端与驱动机构相连接,另一端朝向出料管的一端延伸;驱动机构能够驱动送料螺杆以自身中心轴线为轴转动;料斗的顶端敞口上盖设有过滤网,过滤网的边缘可拆卸地固接在敞口的边沿上;过滤网的中间部位设有一箅子,且箅子的网眼直径小于过滤网的网眼直径;其中,两根支撑脚为沿竖直方向设置的可伸缩支撑脚。该可升降分离机进料器结构简单、操作方便,能够防止大块混凝土进入,并且可以快速调整料斗中的混凝土均匀分布。 | ||||||
| 6 | 具有水循环系统的分离机进料器 | CN201610550506.9 | 2016-07-13 | CN106140456A | 2016-11-23 | 承忠富 |
| 本发明公开了一种具有水循环系统的分离机进料器,包括料斗、支撑脚和出料管;出料管的一端与料斗相连通,另一端朝向料斗外延伸,支撑脚安装在料斗的底部;料斗内部设有送料螺杆,送料螺杆的一端与驱动机构相连接,另一端朝向出料管的一端延伸;驱动机构能够驱动送料螺杆以自身中心轴线为轴转动;料斗的顶端敞口上盖设有过滤网,过滤网的边缘可拆卸地固接在敞口的边沿上;过滤网的中间部位设有一箅子,且箅子的网眼直径小于过滤网的网眼直径;边角处竖直向上设有水管支架,顶端安装有喷水嘴朝向箅子喷水;料斗的侧壁上还设有输水管,输水管一端通过水泵与料斗连桶,另一端与喷水嘴相连。结构简单、操作方便,节约混凝土冲洗用水,避免浪费。 | ||||||
| 7 | 矿用螺旋给料筒 | CN201610672341.2 | 2016-08-16 | CN106076609A | 2016-11-09 | 许霞 |
| 本发明公开了一种矿用螺旋给矿筒,包括给矿筒本体,给矿筒本体的上部设有给矿口,下部设有出料口,给矿筒本体的内部设有若干条左右螺旋导流槽,所述出料口为带有旋流孔的锥形出口,所述左右螺旋导流槽螺旋缠绕于一立柱上,所述立柱的上端正对于给矿口,左右螺旋导流槽的上端位于给矿口的下方,左螺旋导流槽的出口端与右螺旋导流槽的出口端在同一水平面上正面相对,所述立柱通过支撑部与给矿筒本体固定连接。通过合理布置和优化设计,使螺旋给矿筒在螺旋给料时,不仅能有效地降低噪音,提高给矿筒的使用周期,还能使料浆离心力较小且在洗选筒内分布较均匀,有效地解决了料浆中磁团聚的现象,提高了淘洗效率。 | ||||||
| 8 | 一种能够均布分配的分矿装置 | CN201610293322.9 | 2016-05-06 | CN105797843A | 2016-07-27 | 张雨田; 魏德超; 黄翔; 张永东; 杨云萍; 李小娜; 高建安; 徐林梅; 王伟; 保兵林 |
| 本发明公开一种能够均布分配的分矿装置,包括排矿桶,所述排矿桶底部设置有排矿口,所述排矿桶中轴上设置转轴,所述转轴上固定设置分矿筒,所述分矿筒上设置分矿管,所述分矿管设置为弯管,所述分矿管沿分矿筒外壁均布设置,且分矿管沿分矿筒的圆周方向逐渐离心弯曲,所述弯管由连接端至排口端逐渐向下倾斜。本发明在排矿桶内设置分矿筒,分矿筒设置在转轴上,能够自由旋转,在分矿筒外侧设置的分矿管为圆弧过渡的弯管,在分矿过程中,矿浆从分矿管流出具有反冲作用力,能够将分矿筒推动做均匀旋转运动,提高分矿均匀性和效率,本发明结构简单,工作效率明显,对矿浆的分矿更加均布高效。 | ||||||
| 9 | HYDRAULIC PARTICLE SEPARATION APPARATUS FOR PLACER MINING | US15461272 | 2017-03-16 | US20180015479A1 | 2018-01-18 | John Richmond; Michael Lee Gray |
| An innovative compact high efficiency hydraulic particle separator is disclosed. Featured embodiments of the innovative separator comprise a cylindrical main body having an upper chamber and a lower chamber separated by a partition. A liquid fluid flow upwelling through the partition from the lower chamber is caused to mix with tangential jet of fluid flowing introduced above the partition in the upper chamber produces a spiral flow within the upper chamber and flows upward to the top of the apparatus. Particle mixtures containing low density and high specific gravity particles and other solids are introduced into the upper chamber are immediately contacted by the upward spiral flow, where low-density particles are immediately entrained in the spiral flow and separated from the high-density particles, swept upward and exit the apparatus. High-density particles may be forced outward and collect along the wall of the apparatus, falling through the partition to the lower chamber and settle in a collection vessel. | ||||||
| 10 | Feeding method and apparatus for dynamic separators | US10331115 | 2002-12-23 | US07028848B2 | 2006-04-18 | Paolo Bozzato |
| The invention relates to an axial feeding method of the material to be separated in a dense-medium dynamic separator (1). This method is based on the principle of imparting to the material and to the fluid in which it is dispersed, in order to facilitate introduction thereof into the separator (1), a rotational velocity component with respect to the axis of the latter, in this way the particles of material have a movement corresponding to that of the dense medium circulating in the separator, so as to prevent uncontrolled dispersion of the particles inside it. The invention also comprises a feeding apparatus (2) for carrying out the abovementioned method. | ||||||
| 11 | Feeding method and apparatus for dynamic separators | US10331115 | 2002-12-23 | US20030127374A1 | 2003-07-10 | Paolo Bozzato |
| The invention relates to an axial feeding method of the material to be separated in a dense-medium dynamic separator (1). This method is based on the principle of imparting to the material and to the fluid in which it is dispersed, in order to facilitate introduction thereof into the separator (1), a rotational velocity component with respect to the axis of the latter, in this way the particles of material have a movement corresponding to that of the dense medium circulating in the separator, so as to prevent uncontrolled dispersion of the particles inside it. The invention also comprises a feeding apparatus (2) for carrying out the abovementioned method. | ||||||
| 12 | Systems and Methods for Extracting Particulate from Raw Slurry Material | US14928296 | 2015-10-30 | US20160121339A1 | 2016-05-05 | David DeWaard |
| A separation system for separating solids from a slurry of waste material, the separation system comprising a housing, a drum assembly, and a drive assembly. The housing defines a collection chamber. Liquid within the collection chamber defines a liquid level. The drum assembly defines a perforated cylindrical wall and the drum assembly is supported such that at least a portion of the drum assembly is below the liquid level. The drive assembly rotates the drum assembly relative to the housing. | ||||||
| 13 | ARTIFICIAL MULCH CLEANING SYSTEM | US15980888 | 2018-05-16 | US20180332815A1 | 2018-11-22 | Joseph Andrew Hajda |
| An artificial mulch cleaning system includes a vehicle with a housing having a front end, a back end and a plurality of wheels. A collecting assembly is attached to and extends forward of the front end. The gathering assembly has a distal end with respect to the front end. The distal end engages and captures rubber mulch positioned on the ground surface. A cleansing assembly is mounted on the vehicle rearward of and in communication with the collecting assembly. The cleansing assembly cleans the rubber mulch brought into the vehicle by the collecting assembly. A spreading assembly is attached to vehicle and is in communication with the cleansing assembly such that the spreading assembly receives the rubber mulch from the cleansing assembly. The spreading assembly dispenses the rubber mulch from the back end of the vehicle. | ||||||
| 14 | Hydraulic particle separation apparatus for placer mining | US15461272 | 2017-03-16 | US10065197B2 | 2018-09-04 | John Richmond; Michael Lee Gray |
| A hydraulic particle separator is described. The particle separator comprises a main body having a top, a bottom, and a wall enclosing an interior cavity. At least one feed port is disposed on the top of the main body to introduce crude particle mixtures. A partition disposed within the cavity separates the cavity into a lower chamber and an upper chamber. The partition has at least one orifice for fluidic communication between the upper chamber and lower chamber. One or more grooves extend vertically along the interior surface of the wall. At least one tangential flow inlet port is disposed along the wall of the upper chamber above the partition. | ||||||
| 15 | Method of density separation | US59843556 | 1956-07-17 | US2843265A | 1958-07-15 | VICTOR RAKOWSKY |
| 16 | FEEDING METHOD AND APPARATUS FOR DYNAMIC SEPARATORS | EP01936268.0 | 2001-04-24 | EP1294487B1 | 2005-03-23 | BOZZATO, Paolo |
| The invention relates to an axial feeding method of the material to be separated in a dense-medium dynamic separator (1). This method is based on the principle of imparting to the material and to the fluid in which it is dispersed, in order to facilitate introduction thereof into the separator (1), a rotational velocity component with respect to the axis of the latter, in this way the particles of material have a movement corresponding to that of the dense medium circulating in the separator, so as to prevent uncontrolled dispersion of the particles inside it. The invention also comprises a feeding apparatus (2) for carrying out the abovementioned method. | ||||||
| 17 | SYSTEMS AND METHODS FOR EXTRACTING PARTICULATE FROM RAW SLURRY MATERIAL | EP15192587.2 | 2015-11-02 | EP3015152A1 | 2016-05-04 | DEWAARD, David |
A separation system for separating solids from a slurry of waste material, the separation system comprising a housing, a drum assembly, and a drive assembly. The housing defines a collection chamber. Liquid within the collection chamber defines a liquid level. The drum assembly defines a perforated cylindrical wall and the drum assembly is supported such that at least a portion of the drum assembly is below the liquid level. The drive assembly rotates the drum assembly, which has at least one screw flight within the drum member, relative to the housing.
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| 18 | FEEDING METHOD AND APPARATUS FOR DYNAMIC SEPARATORS | EP01936268.0 | 2001-04-24 | EP1294487A1 | 2003-03-26 | BOZZATO, Paolo |
| The invention relates to an axial feeding method of the material to be separated in a dense-medium dynamic separator (1). This method is based on the principle of imparting to the material and to the fluid in which it is dispersed, in order to facilitate introduction thereof into the separator (1), a rotational velocity component with respect to the axis of the latter, in this way the particles of material have a movement corresponding to that of the dense medium circulating in the separator, so as to prevent uncontrolled dispersion of the particles inside it. The invention also comprises a feeding apparatus (2) for carrying out the abovementioned method. | ||||||
| 19 | 건설폐기물의 골재선별 세척장치 | KR1020030060384 | 2003-08-29 | KR1020050022722A | 2005-03-08 | 구경신; 구재일 |
| PURPOSE: An apparatus for separating and washing a reusable aggregate from construction wastes is provided to simplify the structure of the present apparatus and to reduce the production costs thereof by removing the need of a separate discharging installation. CONSTITUTION: The apparatus for separating and washing a reusable earth and soil or aggregate from the construction wastes which are mixed therewith includes: a water tank(1), installed in a so inclined manner that a portion of a discharging end looks upward; a spiral rotation member(10), installed along the longitudinal direction of the water tank(1); a discharging mechanism(40), configured so that there is a determined difference of water level between upper and lower portion and between the right and left portion of the discharging end of the water tank(1); and a waste separating and dehydrating plate, arranged in a central point outside the discharging mechanism(40) in a downward inclined manner. | ||||||
| 20 | 건설폐기물의 골재선별 세척장치 | KR1020030052351 | 2003-07-29 | KR1020050013478A | 2005-02-04 | 구경신; 구재일 |
| PURPOSE: A device is capable of separating and washing aggregate from construction waste by effectively separating floating wastes from the aggregate. CONSTITUTION: The apparatus includes a water tank(1) for storing a constant amount of water therein and having an outlet at a rear portion thereof. A screw-type of rotator member(10) concentrically disposed is installed along a longitudinal direction of the reservoir. Plural bar plates(12) are radially disposed along a rotating shaft(30) and spaced apart from each other at regular intervals. A bucket wheel(50) is installed to the rear portion of the reservoir for drawing up aggregate. A discharge member for discharging floating waste is installed to a side of the reservoir. | ||||||
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