公开(公告)号：US11247240B2

公开(公告)日：2022-02-15

申请号：US16018335

申请日：2018-06-26

Applicant: MineSense Technologies Ltd.

Inventor： Andrew Sherliker Bamber ,  Andrew Csinger ,  David Poole

IPC: B07C5/36 ,  B07C5/04 ,  B07C5/34 ,  B07C5/342

Abstract: Methods and systems for achieving higher efficiencies and capacities in sorting feed material are described herein, such as for separating desirable “good” rock or ore from undesirable “bad” rock or ore in an unsegregated, unseparated stream of feed material. In the disclosure, higher efficiencies are achieved with combinations of multiple sensor/diverter cells in stages in a cascade arrangement. The number and combination of cells in the cascade may be determined through a priori characterization of probabilities involved in sensor/rock and rock/diverter interactions, and mathematical determinations of the optimal number and combination of stages based on this probability. Further, as disclosed herein, desired sorting capacities are achieved through addition of multiple cascades in parallel until the desired sorting capacity is reached.

公开(公告)号：US20160193630A1

公开(公告)日：2016-07-07

申请号：US15068504

申请日：2016-03-11

Applicant: MineSense Technologies Ltd.

Inventor： Andrew Sherliker Bamber ,  Andrew Csinger ,  David Poole

IPC: B07C5/36 ,  B07C5/342 ,  B07C5/04

CPC classification number: B07C5/361 ,  B07C5/04 ,  B07C5/34 ,  B07C5/3425 ,  B07C5/36 ,  B07C5/362

Abstract: Methods and systems for achieving higher efficiencies and capacities in sorting feed material are described herein, such as for separating desirable “good” rock or ore from undesirable “bad” rock or ore in an unsegregated, unseparated stream of feed material. In the disclosure, higher efficiencies are achieved with combinations of multiple sensor/diverter cells in stages in a cascade arrangement. The number and combination of cells in the cascade may be determined through a priori characterization of probabilities involved in sensor/rock and rock/diverter interactions, and mathematical determinations of the optimal number and combination of stages based on this probability. Further, as disclosed herein, desired sorting capacities are achieved through addition of multiple cascades in parallel until the desired sorting capacity is reached.

Abstract translation: 本文描述了在分选进料中实现更高效率和容量的方法和系统，例如用于在未分离的未分离的进料物料流中分离所需的“良好”岩石或矿石与不期望的“不良”岩石或矿石。 在本公开中，通过级联布置中的多个传感器/转向器单元的组合来实现更高的效率。 级联中的细胞数量和组合可以通过传感器/岩石和岩石/分流器相互作用中涉及的概率的先验表征以及基于该概率的最佳数量和阶段组合的数学确定来确定。 此外，如本文所公开的，通过并行添加多个级联来实现期望的分选能力，直至达到所需的分拣能力。

公开(公告)号：US20190134671A1

公开(公告)日：2019-05-09

申请号：US16018335

申请日：2018-06-26

Applicant: MineSense Technologies Ltd.

Inventor： Andrew Sherliker Bamber ,  Andrew Csinger ,  David Poole

IPC: B07C5/04 ,  B07C5/34 ,  B07C5/36 ,  B07C5/342

Abstract: Methods and systems for achieving higher efficiencies and capacities in sorting feed material are described herein, such as for separating desirable “good” rock or ore from undesirable “bad” rock or ore in an unsegregated, unseparated stream of feed material. In the disclosure, higher efficiencies are achieved with combinations of multiple sensor/diverter cells in stages in a cascade arrangement. The number and combination of cells in the cascade may be determined through a priori characterization of probabilities involved in sensor/rock and rock/diverter interactions, and mathematical determinations of the optimal number and combination of stages based on this probability. Further, as disclosed herein, desired sorting capacities are achieved through addition of multiple cascades in parallel until the desired sorting capacity is reached.

公开(公告)号：US10029284B2

公开(公告)日：2018-07-24

申请号：US15068504

申请日：2016-03-11

Applicant: MineSense Technologies Ltd.

Inventor： Andrew Sherliker Bamber ,  Andrew Csinger ,  David Poole

IPC: B07C5/36 ,  B07C5/04 ,  B07C5/34 ,  B07C5/342

Abstract: Methods and systems for achieving higher efficiencies and capacities in sorting feed material are described herein, such as for separating desirable “good” rock or ore from undesirable “bad” rock or ore in an unsegregated, unseparated stream of feed material. In the disclosure, higher efficiencies are achieved with combinations of multiple sensor/diverter cells in stages in a cascade arrangement. The number and combination of cells in the cascade may be determined through a priori characterization of probabilities involved in sensor/rock and rock/diverter interactions, and mathematical determinations of the optimal number and combination of stages based on this probability. Further, as disclosed herein, desired sorting capacities are achieved through addition of multiple cascades in parallel until the desired sorting capacity is reached.