公开(公告)号：WO2022100859A1

公开(公告)日：2022-05-19

申请号：PCT/EP2020/082168

申请日：2020-11-15

申请人： HEAVY KINEMATIC MACHINES SP. Z O. O.

发明人： SEMEGEN, Mateusz ,  ROT, Maciej ,  OSTROWSKI, Kacper ,  KASPEROWICZ, Rafal

IPC分类号： A63B21

摘要： Method for monitoring a free weight system comprising a load bearing member (5) having a sensor (1) mounted thereon, wherein the load bearing member (5) has additionally mounted thereon at least one weight (6) each having a further sensor (1) mounted thereon wherein said sensor (1) comprises an accelerometer (1B) and a gyroscope (1C) and is associated with a weight value, the method comprising the steps of: receiving (403) motion data sets from the sensor (1) and the at least one further sensor; for each of the motion data set correcting (404) acceleration data based on gyroscope data; based on the corrected acceleration data obtained as corrected motion data sets, identifying (405) moving sensors (1); grouping (406), among the moving sensors (1), the sensor (1) with at least one of the at least one further sensor (1) based on the corrected acceleration data being concurrent among the respective corrected motion data sets.

公开(公告)号：WO2021122245A1

公开(公告)日：2021-06-24

申请号：PCT/EP2020/085382

申请日：2020-12-09

申请人： HEAVY KINEMATIC MACHINES SP. Z O. O.

发明人： SEMEGEN, Mateusz ,  KASPEROWICZ, Rafal ,  ROT, Maciej ,  OSTROWSKI, Kacper

IPC分类号： G01S17/04 ,  A63B21/062 ,  A63B21/0628 ,  A63B2220/801 ,  A63B2220/805 ,  A63B2220/89 ,  A63B2225/20 ,  A63B2225/50 ,  A63B2225/54 ,  G01S17/50

摘要： A system for a quantitative detection of a movement, the system comprising: a signal emitter (203) and two signal receivers (202, 204), positioned in series, along a first axis (212) parallel to a second axis of movement (211) of a reflective marker (M), provided on a moving object, wherein the reflective marker (M) is configured to reflect the signal emitted by the emitter (203) towards the receivers (202, 204); wherein the two receivers (202, 204) have a signal reception coverage such that allows existence of a reflective marker (M) position, on the second axis (211), in which the reflective marker (M) of a given size is recognized simultaneously by the two receivers (202, 204). A distance between these parallel axes is D. A distance between the emitter (203) and the receiver (202) is DIE while a distance between the emitter (203) and the receiver (203) is D2E. A signal emitting angle of the emitter (203) is β while a signal reception angle of the receiver (202) is a and a signal reception angle of the receiver (204) is y. In an embodiment, an integrated sensor comprises an emitter (203) typically being an infra-red LED as well as two receivers (202, 204) positioned on a single axis, typically a vertical axis. Another object of the present invention is a weightlifting system comprising a weight stack having at least one weight plate comprising the aforementioned system, wherein the reflective marker is affixed to at least one weight plate.

公开(公告)号：WO2022089764A1

公开(公告)日：2022-05-05

申请号：PCT/EP2020/080611

申请日：2020-10-31

申请人： HEAVY KINEMATIC MACHINES SP. Z O. O.

发明人： SEMEGEN, Mateusz ,  ROT, Maciej ,  OSTROWSKI, Kacper ,  KASPEROWICZ, Rafal

IPC分类号： G01P3/50 ,  G01P3/489 ,  G01P21/02 ,  G01B7/12

摘要： A method for measuring speed comprises the steps of: detecting (606) a time of presence of a marker at a given location covered by a sensor in two consecutive detections Τ1 and T3 of the marker. A time between the end of the first and the start of the second detection is measured as T2. The marker has a constant width of Ym (601) along a direction perpendicular to the radius of a wheel to which it is attached, and a length extending along the radius of the wheel (2), the speed of which is to be measured. The method involves calculating (607) a circumference of a circle, on which the marker is detected, based on the Τ1, T2, T3 and Ym. The length of an arc of the circle covering the marker is determined as Xm, based on the known value Ym. An average circumferential speed is determined based on T1 and T3 and the value of Xm. The circumference is determined by summing said average speed multiplied by T2 with the arc Xm. Finally, the circumferential speed on the circle defined by the sensor and the marker is calculated based on the total time of a complete rotation of the wheel (2) and the calculated circumference of said circle. A corresponding system is also provided.

公开(公告)号：WO2021155979A1

公开(公告)日：2021-08-12

申请号：PCT/EP2020/085383

申请日：2020-12-09

申请人： HEAVY KINEMATIC MACHINES SP. Z O. O.

发明人： SEMEGEN, Mateusz ,  KASPEROWICZ, Rafal ,  ROT, Maciej ,  OSTROWSKI, Kacper

IPC分类号： A63B21/062 ,  G06D3/00 ,  G06C15/04

摘要： A method for counting spatially arranged, moving markers (120 – 127) wherein said markers (120 – 127) are arranged to move along a movement axis (100) being parallel to a sensors axis (150) of sensors (142 – 146) configured to detect said markers (120 – 127) during movement. According to the method the number of sensors is lower than the number of markers in order to decrease the cost of the sensors system. Further, the present system supports stacks having objects, associated with said markers, of different sizes (e.g. weight plates of increasing height) and/or different weights.