METHOD AND SYSTEM FOR THE OPTICAL DETERMINATION OF CORRECTION PLANES IN ROTATING ELEMENTS

摘要

The subject matter of the present invention relates to a system for the optical determination of correction planes in rotating elements, used in the process of balancing, in particular in diagnostic devices equipped with a system which has at least one video camera (K), at least one line projector (RL), a monitor screen (M) and a computer (P) which controls individual component elements of the system, wherein the video camera (K) cooperates with the line projector (RL) while projecting a view of the rotating element (EW) on the monitor screen (M) together with an image of a line (L) projected by means of the line projector (RL).;The subject matter of the present invention also relates a method for determining correction planes which consists in that an area of measurement space is defined on the basis of a virtual rotating element (EW′) before placing a rotating element (EW) on the shaft of a diagnostic device (PM) onto which line (L) is projected by means of line projector (RL), and subsequently a view of the rotating element (EW) is transmitted by means of the video camera (K) to the monitor screen (M) together with an image of the projected line (L), and thus the run of the line is obtained which maps a change in the value of the radius rn from the axis of the shaft of the diagnostic device (PM) and the value of distance Dn of the rotating element (EW) from the diagnostic device (PM) in the defined area of measurement space.

主权项

1. A method for the optical determination of correction planes in a rotating element (EW) used in the process of balancing, in particular in diagnostic devices equipped with a system that has at least one video camera (K), at least one line projector (RL), a monitor screen (M) and a computer (P) by means of which these component elements of the system are controlled, the method consisting in that a rotating element (EW) is placed on the shaft of a diagnostic device (PM) in such a manner that the rotating element (EW) is perpendicular to the axis of the shaft of a diagnostic device (PM), characterized in that, prior to placing the rotating element (EW) on the shaft of the diagnostic device (PM), an area of measurement space is determined in such a manner that pre-determined pixels Pn of the monitor screen (M) having coordinates xn and yn are assigned to a set of points in the area of measurement space, which pixels are then assigned pre-determined values of radiuses rn from the axis of the shaft of the diagnostic device (PM) and values of the distance Dn of line (L) projected each time by the line projector (RL) on a virtual rotating element (EW′) from the diagnostic device (PM), and in such determined area of measurement space the rotating element (EW) is placed on the shaft of the diagnostic device (PM) onto which a line (L) is projected by the line projector (RL), and subsequently the view of the rotating element (EW) is transmitted by means of the video camera (K) to the monitor screen (M) together with the image of the projected line (L), and thus the run of the line is obtained which maps a change in the value of radius rn from the axis of the shaft of the diagnostic device (PM) and the value of distance Dn of the rotating element (EW) from the diagnostic device (PM) in the defined area of measurement space, and subsequently a specific pixel Pn having coordinates xn and yn is indicated on the monitor screen, which corresponds to the value of radius rn from the axis of the shaft of the diagnostic device (PM) and the value of distance Dn of the rotating element (EW) from the diagnostic device (PM), which values are used to determine correction planes of the rotating element (EW).