WO2004034041B1 - Method and apparatus for the optical evaluation of a paper surface - Google Patents

Abstract

The present invention relates to a method and automated equipment for the optical evaluation of smoothness defects, namely surface defects, starch application flaws and water-line defects, of the surface of the paper obtained in a paper production plant, which comprises a system (1) for the transportation and positioning of the paper in a planar table, a system (2) for the illumination and imaging, a computer based control system (3) for the control of the positioning of the paper in the transportation system and finally a system (4) for the analysis and processing of the obtained image. Image processing is performed through low-pass filtering, including through the use of Fourier or East Fourier (FFT) transforms. The image signal of defects is enhanced by averaging pixels along the machine direction (MD).

Claims

11

AMENDED CLAIMS

[Received by the International Bureau on 16 APR 2004 (16.04.04) ; original claims 1 -10, replaced by claims 1-8] A method for the optical evaluation of paper surface defects, using an equipment comprising a system (2) of illumination and image acquisition and a system (4) of analysis and processing of the obtained image, characterized in that:

a) system (2) of illumination and image acquisition uses an illumination (5) with a grazing angle to the surface of the paper in analysis, provided with a small opening light beam, and a digital camera (β) with an optical axis perpendicular to the surface of the paper, b) system (4) of image analysis and processing performs: • simple FFT-based digital filtering in order to eliminate the part of the calculated spectrum that consists typically of low frequency components, such as lack of homogeneity of the illumination, and the structures with preferential orientation parallel to the illumination direction,

• optical measurement of the roughness index defined as the standard deviation of the filtered image's grey level distribution.

A method according to claim 1 characterized in that the system (2) of illumination and image acquisition uses a grazing angle illumination (5) perpendicular to the machine direction for the detection of structures essentially parallel to the machine direction.

A method according to claim 1, characterized in that the system (2) of illumination and image acquisition uses a grazing angle illumination (5) parallel to the machine 12 direction for the detection of structures essentially^" perpendicular to the machine direction.

A method for the optical evaluation of water-lines (glossy streaks in the paper surface) on the paper surface, using an equipment comprising a system (2) of illumination and image acquisition and a system (4) of analysis and processing of the obtained image, characterized in that:

a) system (2) of illumination and image acquisition uses an illumination of an adjustable small opening light beam

(10), with incidence in the plane of the paper and the digital camera (11) is placed in a (adjustable) position approximately symmetrical to the lamp (10) in relation to an axis perpendicular to the paper surface,

b) system (4) of analysis and processing of image performs the following steps, according to Figure 8: • Acquisition of the image,

• Reduction to one dimension, line along the CD direction, of the obtained image, by means of calculation of the average of the MD values in each CD position, • Filtration of the one-dimensional image,

• Measurement of the water-lines index defined as the standard deviation of the grey levels of the filtered image (line) ,

• Recording the calculated index and CD position.

An equipment for the automatic and integrated optical evaluation of the «smoothness» defects, according to the methods described in claims 1 to 4, characterized in that 13 j it comprises a system (1) of transport and positioning of the paper on a plane table (7), a system (2) of illumination and image acquisition, a computer based control system (3) for the control of the position of the paper in the transport system and finally a system (4) of analysis and processing of the obtained image, that performs the following steps:

• Loading the paper sample in the equipment's system (1) for paper transport, • Transport of paper in order to place the first for position CD analysis under the digital cameras (β, 11),

• Application of the topography measurement algorithm according to claim 4 for each direction of incidence of the illumination, and water-lines measurement according to claim 8,

• Transport of the paper to the next position of measurement and return to the previous point repeating the cycle until de paper sample is completely unwound.

6. The equipment for the automatic and integrated optical evaluation of the «smoothness» defects according to claim 5, characterized in that the system (1) of transport and positioning of the paper on a flat table (7) comprises an unwinder of the paper that allows to unwind a sample corresponding to the width of a paper reel (8, 12) in order to be available on the plane table (7) an area (13) of the paper to be analysed whose distance to the end of the paper reel (12) is controlled.

7. The equipment for the automatic and integrated optical evaluation of the «smoothness» defects according to claim 5, characterized in that the system (2) of illumination and image acquisition comprises a light source (5, 9, 10) 14 and a digital camera (6, 11), and also in that the orientation of the light and of the camera in relation to the plane of the paper, as well as the light spectrum and beam opening, can be chosen as a function of the defect^" to be detected.

The equipment for the automatic and integrated optical evaluation of the «smoothness» defects according to claim 5, characterized in that the computer based control system (3) for the positioning of the paper in the transport system, is totally automatic, therefore without the need of any human intervention for its operation after loading the paper sample.

The use of the equipment for the automatic and integrated optical evaluation of «smoothness» defects according to claims 5 to 8, characterized in that it is applied namely to the optical evaluation of:

a. topography defects of the streak type, b. water-lines defects.