Process and system for detecting bend angle

Image analysis – Image transformation or preprocessing – Measuring image properties

Reexamination Certificate

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C382S152000

Reexamination Certificate

active

06473537

ABSTRACT:

TECHNICAL FIELD
The present invention relates to a process and system for detecting a bend angle when bending a sheet-like workpiece to a desired angle.
BACKGROUND ART
One known bend angle detection system adapted for use in a bending machine such as press brakes is disclosed in Japanese Patent Publication Gazette (KOKAI) No. 7-239221 (1995). According to this publication, a slit light or a plurality of spot lights are projected onto a surface of a workpiece to form a light image thereon and the picture image of the light image is picked up by a pickup means to be subject to image processing, whereby the angle of a bend in the workpiece is detected.
In this bend angle detection system, a picture image picked up by the pickup means is digitized with an appropriate threshold to form a binary image, using a known image processing technique, the binary image is thinned to have one pixel width, and then the thinned straight line having one pixel width is represented by a sequence of points (x, y), treating one pixel as a unit. From this image composed of a sequence of points, a linear equation ax+by+c=0 is calculated, using the least squares method or the like. If the length of the straight line obtained from the calculation exceeds a specified value (e.g., one half the length of the screen), this straight line is determined as the points on the workpiece to be extracted. Then, the inclination and position of this straight line on the screen are calculated, from which the angle of a bend in the workpiece is determined.
The above publication also discloses a straight line extraction system for extracting only necessary straight lines formed on an image in cases where a workpiece has a plurality of bends. In this system, a slit light is projected onto the outer surface of a bent workpiece and this light also falls on a part of a lower die, so that the lower die is included within the view of the pickup means, and a picture image picked up by the pickup means under such a condition is represented as a sequence of points (x, y) as noted earlier. Then, a pattern composed of several straight lines is extracted from the sequential point image thus obtained and the second straight line which leads to a straight line resting on the lower end of the screen is taken out, whereby a desired straight line can be extracted.
Another prior art bend angle detection system is disclosed in Japanese Patent Publication Gazette (KOKOKU) No. 4-18926 (1992) according to which, a pickup device is positioned on a side of the dies and data on a picture image picked up in a state in which a workpiece (sheet material) has not been fed to a bending machine is stored in an A memory, while data on a picture image picked up in a state in which a workpiece has been fed to the bending machine is stored in a B memory. The picture image data are respectively converted into binary signals and these signals undergo a subtraction process, thereby obtaining image data on the workpiece based on which the angle of a bend in the workpiece is detected.
However, the bend angle detection system of Japanese Patent Publication No. 7-239221 reveals the following problem. Concretely, when detecting a bend angle of a workpiece having a short leg, two line segments, that is, the image of a light ray projected onto the workpiece and the image of a light ray projected onto the punch (upper die) are recognized. Since the image of the light ray projected onto the workpiece is shorter than a desirable specified length because of the short leg of the workpiece, the projected light image formed on the punch is mistakenly recognized as a line segment to be measured, which results in a failure in bend angle detection.
In the case of the above straight line extraction system which extracts necessary straight image lines only, if the lower die has a level difference, two line segments will be taken as the projected light image formed on the lower die, so that the projected light image on the lower die is mistakenly recognized as a line segment to be measured. If the workpiece is a wavy galvanized plate, a plurality of lines or one straight line is extracted as the projected light image formed on the workpiece so that the projected light image on the workpiece cannot be correctly picked up. If the boundary between the projected light image on the lower die and one on the workpiece is indefinite, it is difficult to extract the straight lines to be measured so that there occur troubles such as extraction of a pattern composed of only one straight line.
The bend angle detection system disclosed in Japanese Patent Publication No. 4-18926 which is a prior art system associated with the present invention is intended for pickup of the image of an actual bending position in a workpiece and designed to obtain image data on a side of a workpiece by subtraction of a background (such as dies) which is supplied with no workpiece. Therefore, the technical concept of this system is different from that of the present invention which is intended for accurate extraction of a projected light image formed on a workpiece.
The present invention is directed to overcoming the foregoing problems and the primary object of the invention is therefore to provide a bend angle detection system and bend angle detection process which are capable of accurately extracting a projected light image formed on a workpiece from various images even if the projected light image formed on the workpiece is short in length.
DISCLOSURE OF THE INVENTION
According to a first aspect of the invention, the above object can be achieved by a bend angle detection process in which a linear projected light image is produced on a surface of a workpiece, a picture image of the linear projected light image is picked up and subject to image processing, thereby detecting the angle of a bend in the workpiece,
the process comprising:
(a) a first step of picking up a picture image of a first linear projected light image during bending of the workpiece;
(b) a second step of picking up a picture image of a second linear projected light image after an elapse of a specified time period after picking up the picture image of the first linear projected light image;
(c) a third step of assigning the respective picture images picked up at the first step and at the second step to pixels arranged within a common plane represented by X and Y coordinates and dividing the pixels into two groups according to hue and brightness;
(d) a fourth step of creating a new picture image through logical operation which is performed by making comparison between each pixel associated with the picture image picked up at the first step and its corresponding pixel associated with the picture image picked up at the second step in the common plane represented by X and Y coordinates; and
(e) a fifth step of calculating the angle of the bend from the new picture image created in the fourth step.
In the process designed according to the first aspect of the invention, at the first step, a picture image of a first linear projected light image formed on a workpiece surface is picked up during bending operation. At the second step, a picture image of a second linear projected light image is picked up after an elapse of a specified time period after picking up the picture image of the first linear projected light image. Then, the picture images picked up at the first step and at the second step are respectively assigned to pixels arranged in a common plane represented by X and Y coordinates and these pixels are divided into two groups according to hue and brightness.
Thereafter, logical operation is performed by making a comparison between each pixel associated with the picture image picked up at the first step and its corresponding pixel associated with the picture image picked up at the second step within the common plane represented by X and Y coordinates. In this logical operation, the pixels associated with both of the picture images picked up at the first and second steps are eliminated from the pixels associated with the pict

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